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460 lines
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460 lines
21 KiB
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
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<!-- /home/espenr/tmp/qt-3.3.8-espenr-2499/qt-x11-free-3.3.8/extensions/activeqt/examples/dotnet/dotnet.doc:1 -->
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<head>
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<meta http-equiv="Content-Type" content="text/html; charset=ISO-8859-1">
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<title>Walkthrough: Using TQt objects in Microsoft .NET</title>
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<tr bgcolor="#E5E5E5">
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<td valign=center>
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<a href="index.html">
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<font color="#004faf">Home</font></a>
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| <a href="classes.html">
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<font color="#004faf">All Classes</font></a>
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| <a href="mainclasses.html">
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<font color="#004faf">Main Classes</font></a>
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<font color="#004faf">Annotated</font></a>
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</td>
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<td align="right" valign="center"><img src="logo32.png" align="right" width="64" height="32" border="0"></td></tr></table><h1 align=center>Walkthrough: Using TQt objects in Microsoft .NET</h1>
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<!-- toc -->
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<ul>
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<li><a href="#1"> Introduction
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</a>
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<ul>
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<li><a href="#1-1"> TQt vs .NET
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</a>
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</ul>
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<li><a href="#2"> Walkthrough: .NET interop with MC++ and IJW
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</a>
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<li><a href="#3"> Walkthrough: .NET/COM Interop with ActiveTQt
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</a>
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<ul>
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<li><a href="#3-1"> Starting a Project
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</a>
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<li><a href="#3-2"> Importing TQt Widgets
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</a>
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<li><a href="#3-3"> Using TQt Widgets
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</a>
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<li><a href="#3-4"> Handling TQt Signals
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</a>
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</ul>
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<li><a href="#4"> Summary
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</a>
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<ul>
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<li><a href="#4-1"> Limitations
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</a>
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<li><a href="#4-2"> Performance Considerations
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</a>
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</ul>
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</ul>
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<!-- endtoc -->
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<p> <h2> Introduction
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</h2>
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<a name="1"></a><p> In the following walkthrough we will show how TQt objects can be used
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in a .NET environment, and how .NET objects can be used in a TQt
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environment.
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<p> <h3> TQt vs .NET
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</h3>
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<a name="1-1"></a><p> TQt is a C++ library and is compiled into traditional, native
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binaries that make full use of the performance provided by the
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runtime environment.
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<p> One of the key concepts of .NET is the idea of "intermediate language
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code" - the source code is compiled into a bytecode format, and at
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runtime, that bytecode is executed in a virtual machine - the <em>Common Language Runtime</em> (CLR).
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<p> Another key concept is that of <em>managed code</em>. This is essentially
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intermediate language code written in such a way that the CLR can take
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care of the memory management, i.e. the CLR will do automatic garbage
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collection, so the application code does not need to explicitly free
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the memory for unused objects.
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<p> The MS compilers for C# and VB.NET will only produce managed
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code. Such programs cannot directly call normal, native functions
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or classes. <a href="#footnote1"><sup>(1)</sup></a><a name="footnote-call1"></a>
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<p> The MS C++ compiler for .NET on the other hand, can produce both
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normal and managed code. To write a C++ class that can be compiled
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into managed code, the developer must flag the class as managed using
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the <tt>__gc</tt> keyword, and restrict the code to only use the subset of
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C++ known as "Managed Extensions for C++", or MC++ for short. The
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advantage is that MC++ code can freely call and use normal C++
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functions and classes. And it also works the other way around: normal
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C++ code can call managed functions and use managed classes (e.g. the
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entire .NET framework class library), including managed functions and
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classes implemented in C# or VB.NET. This feature of mixing managed
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and normal C++ code immensely eases the interoperability with .NET,
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and is by Microsoft referred to as the "It Just Works" (IJW) feature.
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<p> This document demonstrates two different ways of integrating normal
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C++ code (that uses TQt) with managed .NET code. First, the manual way
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is presented, which includes using a thin MC++ wrapper class around
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the normal TQt/C++ class. Then, the automated way is presented, which
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utilizes the <a href="activentqt.html#ActiveTQt">ActiveTQt</a> framework as a generic bridge. The advantage of
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the first method is that it gives the application developer full
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control, while the second method requires less coding and relieves the
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developer of dealing with the conversion between managed and normal
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data objects.
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<p> The impatient reader, who right away wants to see a <a href="ntqpushbutton.html">TQPushButton</a> and a
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custom TQt widget (<a href="qaxserver-example-multiple.html">TQAxWidget2</a>) run in a .NET GUI application is referred to the example
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directory of ActiveTQt. It contains the result of this walkthrough
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using both C# and VB.NET, created with Visual Studio.NET (not 2003).
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Load <tt>examples/dotnet/walkthrough/csharp.csproj</tt>,
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<tt>examples/dotnet/walkthrough/vb.vbproj</tt>
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<a href="#footnote2"><sup>(2)</sup></a><a name="footnote-call2"></a>
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or <tt>examples/dotnet/wrapper/wrapper.sln</tt> into the IDE and run
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the solution.
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<p> <h2> Walkthrough: .NET interop with MC++ and IJW
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</h2>
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<a name="2"></a><p> Normal C++ classes and functions can be used from managed .NET code by
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providing thin wrapper classes written in MC++. The wrapper class will
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take care of forwarding the calls to the normal C++ functions or
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methods, and converting parameter data as necessary. Since the wrapper
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class is a managed class, it can be used without further ado in any
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managed .NET application, whether written in C#, VB.NET, MC++ or other
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managed programming language.
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<p>
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<pre> // native TQt/C++ class
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class Worker : public <a href="ntqobject.html">TQObject</a>
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{
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<a href="metaobjects.html#TQ_OBJECT">TQ_OBJECT</a>
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Q_PROPERTY(TQString statusString READ statusString WRITE setStatusString)
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public:
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Worker();
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<a href="ntqstring.html">TQString</a> statusString() const;
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public slots:
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void setStatusString(const <a href="ntqstring.html">TQString</a> &string);
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signals:
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void statusStringChanged(const <a href="ntqstring.html">TQString</a> &string);
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private:
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<a href="ntqstring.html">TQString</a> status;
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};
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</pre>
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<p> The TQt class has nothing unusual for TQt users, and as even the TQt
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specialities like <tt>Q_PROPERTY</tt>, <tt>slots</tt> and <tt>signals</tt> are
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implemented with straight C++ they don't cause any trouble when
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compiling this class with any C++ compiler.
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<p>
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<pre> class Worker;
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// .NET class
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public __gc class netWorker
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{
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public:
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netWorker();
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~netWorker();
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__property String *get_StatusString();
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__property void set_StatusString(String *string);
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__event void statusStringChanged(String *args);
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private:
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Worker *workerObject;
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};
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</pre>
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<p> The .NET wrapper class uses keywords that are part of MC++ to indicate
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that the class is managed/garbage collected (<tt>__gc</tt>), and that <tt>StatusString</tt> should be accessible as a property in languages that
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support this concept (<tt>__property</tt>). We also declare an event
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function <tt>statusStringChanged(String*)</tt> (<tt>__event</tt>), the
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equivalent of the respective signal in the TQt class.
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<p> Before we can start implementing the wrapper class we need a way to
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convert TQt's datatypes (and potentionally your own) into .NET
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datatypes, e.g. <a href="ntqstring.html">TQString</a> objects need to be converted into objects
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of type <tt>String*</tt>.
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<p> When operating on managed objects in normal C++ code, a little extra
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care must be taken because of the CLR's garbage collection. A normal
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pointer variable should not <a href="#footnote3"><sup>(3)</sup></a><a name="footnote-call3"></a> be used to refer to a managed
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object. The reason is that the garbage collection can kick in at any
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time and move the object to another place on the heap, leaving you
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with an invalid pointer.
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<p> However, two methods are provided that solves this problem easily. The
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first is to use a <em>pinned</em> pointer, i.e. declare the pointer variable
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with the <tt>__pin</tt> keyword. This guarantees that the object pointed to
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will not be moved by the garbage collector. It is recommended that
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this method not be used to keep a references to managed objects for a
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long time, since it will decrease the efficiency of the garbage
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collector. The second way is to use the <tt>gcroot</tt> smartpointer
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template type. This lets you create safe pointers to managed
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objects. E.g. a variable of type <tt>gcroot<String></tt> will always point
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to the String object, even if it has been moved by the garbage
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collector, and it can be used just like a normal pointer.
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<p>
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<pre> #include <<a href="qstring-h.html">ntqstring.h</a>>
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#using <mscorlib.dll>
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#include <vcclr.h>
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using namespace System;
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String *TQStringToString(const <a href="ntqstring.html">TQString</a> &qstring)
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{
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<a name="x2467"></a> return new String(qstring.<a href="ntqstring.html#ucs2">ucs2</a>());
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}
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</pre>
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<p> <pre> TQString StringToTQString(String *string)
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{
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wchar_t __pin *chars = PtrToStringChars(string);
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return TQString::fromUcs2(chars);
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}
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</pre>
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<p> The convertor functions can then be used in the wrapper class
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implementation to call the functions in the native C++ class.
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<p>
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<pre> #include "networker.h"
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#include "worker.h"
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#include "tools.h"
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netWorker::netWorker()
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{
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workerObject = new Worker();
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}
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</pre>
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<p> <pre> netWorker::~netWorker()
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{
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delete workerObject;
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}
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</pre>
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<p> The constructor and destructor simply create and destroy the TQt
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object wrapped using the C++ operators <tt>new</tt> and <tt>delete</tt>.
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<p> <pre> String *netWorker::get_StatusString()
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{
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return TQStringToString(workerObject->statusString());
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}
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</pre>
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<p> The netWorker class delegates calls from the .NET code to the native
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code. Although the transition between those two worlds implies a small
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performance hit for each function call, and for the type conversion,
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this should be negligible since we are anyway going to run within the
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CLR.
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<p> <pre> void netWorker::set_StatusString(String *string)
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{
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workerObject->setStatusString(StringToTQString(string));
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__raise statusStringChanged(string);
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}
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</pre>
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<p> The property setter calls the native TQt class before firing the
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event using the <tt>__raise</tt> keyword.
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<p> This wrapper class can now be used in .NET code, e.g. using C++, C#,
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Visual Basic or any other programming language available for .NET.
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<p>
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<pre> using System;
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namespace WrapperApp
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{
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class App
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{
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void Run()
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{
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netWorker worker = new netWorker();
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worker.statusStringChanged += new netWorker.__Delegate_statusStringChanged(onStatusStringChanged);
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System.Console.Out.WriteLine(worker.StatusString);
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System.Console.Out.WriteLine("Working cycle begins...");
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worker.StatusString = "Working";
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worker.StatusString = "Lunch Break";
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worker.StatusString = "Working";
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worker.StatusString = "Idle";
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System.Console.Out.WriteLine("Working cycle ends...");
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}
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private void onStatusStringChanged(string str)
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{
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System.Console.Out.WriteLine(str);
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}
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[STAThread]
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static void Main(string[] args)
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{
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App app = new App();
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app.Run();
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}
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}
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}
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</pre>
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<p> <h2> Walkthrough: .NET/COM Interop with ActiveTQt
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</h2>
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<a name="3"></a><p> Fortunately .NET provides a generic wrapper for COM objects, the
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<em>Runtime Callable Wrapper</em> (RCW). This RCW is a proxy for the
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COM object and is generated by the CLR when a .NET Framework client
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activates a COM object. This provides a generic way to reuse COM
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objects in a .NET Framework project.
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<p> Making a <a href="ntqobject.html">TQObject</a> class into a COM object is easily achieved with
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ActiveTQt and demonstrated in the <a href="qaxserver-examples.html">examples</a>. The walkthrough will use the TQt classes implemented
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in those examples, so the first thing to do is to make sure that those
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examples have been built correctly, e.g. by opening the <a href="qaxserver-demo-multiple.html">demonstration pages</a> in Internet
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Explorer to verify that the controls are functional.
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<p> <h3> Starting a Project
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</h3>
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<a name="3-1"></a><p> Start Visual Studio.NET, and create a new C# project for writing a
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Windows application. This will present you with an empty form in
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Visual Studio's dialog editor. You should see the toolbox, which
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presents you with a number of available controls and objects in
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different categories. If you right-click on the toolbox it allows
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you to add new tabs. We will add the tab "TQt".
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<p> <h3> Importing TQt Widgets
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</h3>
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<a name="3-2"></a><p> The category only has a pointer tool by default, and we have to add
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the TQt objects we want to use in our form. Right-click on the empty
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space, and select "Customize". This opens a dialog that has two
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tabs, "COM Components" and ".NET Framework Components". We used
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ActiveTQt to wrap TQWidgets into COM objects, so we select the "COM
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Components" page, and look for the classes we want to use, e.g.
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"TQPushButton" and "TQAxWidget2".
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<p> When we select those widgets and close the dialog the two widgets
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will now be available from the toolbox as grey squares with their
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name next to it <a href="#footnote4"><sup>(4)</sup></a><a name="footnote-call4"></a> .
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<p> <h3> Using TQt Widgets
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</h3>
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<a name="3-3"></a><p> We can now add an instance of TQAxWidget2 and a <a href="ntqpushbutton.html">TQPushButton</a> to
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the form. Visual Studio will automatically generate the RCW for the
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object servers. The TQAxWidget2 instance takes most of the upper
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part of the form, with the TQPushButton in the lower right corner.
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<p> In the property editor of Visual Studio we can modify the properties
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of our controls - TQPushButton exposes the <a href="ntqwidget.html">TQWidget</a> API and has many
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properties, while TQAxWidget2 has only the Visual Studio standard
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properties in addition to its own property "lineWidth" in the
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"Miscellaneous" category. The objects are named "axTQPushButton1" and
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"axTQAxWidget21", and since especially the last name is a bit
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confusing we rename the objects to "resetButton" and "circleWidget".
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<p> We can also change the TQt properties, e.g. set the "text" property
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of the <tt>resetButton</tt> to "Reset", and the "lineWidth" property of the
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<tt>circleWidget</tt> to 5. We can also put those objects into the layout
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system that Visual Studio's dialog editor provides, e.g. by setting
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the anchors of the <tt>circleWidget</tt> to "Left, Top, Right, Bottom", and
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the anchors of the <tt>resetButton</tt> to "Bottom, Right".
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<p> Now we can compile and start the project, which will open a user
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interface with our two TQt widgets. If we can resize the dialog,
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the widgets will resize appropriately.
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<p> <h3> Handling TQt Signals
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</h3>
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<a name="3-4"></a><p> We will now implement event handlers for the widgets. Select the
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<tt>circleWidget</tt> and select the "Events" page in the property
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editor. The widget exposes events because the TQAxWidget2 class has
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the "StockEvents" attribute set in its class definition. We implement
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the event handler <tt>circleClicked</tt> for the <tt>ClickEvent</tt> to increase
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the line width by one for every click:
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<p>
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<pre> private void circleClicked(object sender, System.EventArgs e)
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{
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this.circleWidget.lineWidth++;
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}
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</pre>
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<p> In general we can implement a default event handler by double
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clicking on the widget in the form, but the default events for
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our widgets are right now not defined.
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<p> We will also implement an event handler for the <tt>clicked</tt> signal
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emitted by <a href="ntqpushbutton.html">TQPushButton</a>. Add the event handler <tt>resetLineWidth</tt> to
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the <tt>clicked</tt> event, and implement the generated function:
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<p> <pre> private void resetLineWidth(object sender, System.EventArgs e)
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{
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this.circleWidget.lineWidth = 1;
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this.resetButton.setFocus();
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}
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</pre>
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<p> We reset the property to 1, and also call the <tt>setFocus()</tt> slot
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to simulate the user style on Windows, where a button grabs focus
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when you click it (so that you can click it again with the spacebar).
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<p> If we now compile and run the project we can click on the circle
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widget to increase its line width, and press the reset button to
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set the line width back to 1.
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<p> <h2> Summary
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</h2>
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<a name="4"></a><p> Using ActiveTQt as a universal interoperability bridge between the
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.NET world and the native world of TQt is very easy, and makes it
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often unnecessary to implement a lot of handwritten wrapper classes.
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Instead, the <a href="qaxfactory.html">TQAxFactory</a> implementation in the otherwise completely
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cross-platform TQt project provides the glue that .NET needs to to
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generate the RCW.
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<p> If this is not sufficient we can implement our own wrapper classes
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thanks to the C++ extensions provided by Microsoft.
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<p> <h3> Limitations
|
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</h3>
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<a name="4-1"></a><p> All the limitations when using ActiveTQt are implied when using this
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technique to interoperate with .NET, e.g. the datatypes we can use
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in the APIs can only be those supported by ActiveTQt and COM. However,
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since this includes subclasses of <a href="ntqobject.html">TQObject</a> and <a href="ntqwidget.html">TQWidget</a> we can wrap
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any of our datatypes into a TQObject subclass to make its API
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available to .NET. This has the positive side effect that the same
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API is automatically available in <a href="http://www.trolltech.com/products/qsa">TQSA</a>, the cross platform
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scripting solution for TQt applications, and to COM clients in general.
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<p> When using the "IJW" method, in priciple the only limitation is the
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time required to write the wrapper classes and data type conversion
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functions.
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|
<p> <h3> Performance Considerations
|
|
</h3>
|
|
<a name="4-2"></a><p> Every call from CLR bytecode to native code implies a small
|
|
performance hit, and necessary type conversions introduce an
|
|
additional delay with every layer that exists between the two
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|
frameworks. Consequently every approach to mix .NET and native
|
|
code should try to minimize the communication necessary between
|
|
the different worlds.
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<p> As ActiveTQt introduces three layers at once - the RCW, COM and finally
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|
ActiveTQt itself - the performance penalty when using the generic
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|
TQt/ActiveTQt/COM/RCW/.NET bridge is larger than when using a
|
|
hand-crafted IJW-wrapper class. The execution speed however is still
|
|
sufficient for connecting to and modifying interactive elements in a
|
|
user interface, and as soon as the benefit of using TQt and C++ to
|
|
implement and compile performance critical algorithms into native code
|
|
kicks in, ActiveTQt becomes a valid choice for making even non-visual
|
|
parts of your application accessible to .NET.
|
|
<p>
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|
<hr>
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|
<ol> <li><a name="footnote1"></a>
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|
The .NET framework provides Platform Invocation
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|
Services - P/Invoke - that enable managed code to call native C (not
|
|
C++) functions located in DLLs directly. The resulting application
|
|
then becomes partially unmanaged. <a href="#footnote-call1">Back...</a> <li><a name="footnote2"></a>
|
|
|
|
You will notice that in the generated code the following line is
|
|
commented out: <pre>
|
|
' VB is case insensitive, but our C++ controls are not.
|
|
' Me.resetButton.enabled = True
|
|
</pre>
|
|
|
|
This line is regenerated without comment whenever you change the
|
|
dialog, in which case you have to comment it out again to be able
|
|
to run the project. This is a bug in the original version of
|
|
Visual Studio.NET, and is fixed in the 2003 edition.
|
|
<a href="#footnote-call2">Back...</a> <li><a name="footnote3"></a>
|
|
Indeed, the compiler will in
|
|
many cases disallow it. <a href="#footnote-call3">Back...</a> <li><a name="footnote4"></a>
|
|
Icons could be added by modifying the
|
|
way the controls register themselves. <a href="#footnote-call4">Back...</a></ol>
|
|
</hr><p>See also <a href="qaxserver-examples.html">The TQAxServer Examples</a>.
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|
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|
<!-- eof -->
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<p><address><hr><div align=center>
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<table width=100% cellspacing=0 border=0><tr>
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|
<td>Copyright © 2007
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|
<a href="troll.html">Trolltech</a><td align=center><a href="trademarks.html">Trademarks</a>
|
|
<td align=right><div align=right>TQt 3.3.8</div>
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|
</table></div></address></body>
|
|
</html>
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