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170 lines
9.7 KiB
170 lines
9.7 KiB
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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>Why doesn't TQt use templates for signals and slots?</h1>
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<p> A simple answer is that when TQt was designed, it was not possible to
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fully exploit the template mechanism in multi-platform applications due
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to the inadequacies of various compilers. Even today, many widely used
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C++ compilers have problems with advanced templates. For example, you
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cannot safely rely on partial template instantiation, which is essential
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for some non-trivial problem domains. Thus TQt's usage of templates has
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to be rather conservative. Keep in mind that TQt is a multi-platform
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toolkit, and progress on the Linux/g++ platform does not necessarily
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improve the situation elsewhere.
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<p> Eventually those compilers with weak template implementations will
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improve. But even if all our users had access to a fully standards
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compliant modern C++ compiler with excellent template support, we would
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not abandon the string-based approach used by our <a href="metaobjects.html#meta-object">meta object</a> compiler.
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Here are five reasons why:
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<p> <h3>1. Syntax matters</h3>
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<p> Syntax isn't just sugar: the syntax we use to express our algorithms can
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significantly affect the readability and maintainability of our code.
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The syntax used for TQt's signals and slots has proved very successful in
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practice. The syntax is intuitive, simple to use and easy to read.
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People learning TQt find the syntax helps them understand and utilize the
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signals and slots concept -- despite its highly abstract and generic
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nature. Furthermore, declaring signals in class definitions ensures that
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the signals are protected in the sense of protected C++ member
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functions. This helps programmers get their design right from the very
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beginning, without even having to think about design patterns.
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<p> <h3>2. Precompilers are good</h3>
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<p> TQt's <tt><a href="moc.html#moc">moc</a></tt> (Meta Object Compiler) provides a clean way to go
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beyond the compiled language's facilities. It does so by generating
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additional C++ code which can be compiled by any standard C++ compiler.
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The <tt>moc</tt> reads C++ source files. If it finds one or more class
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declarations that contain the "Q_OBJECT" macro, it produces another C++
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source file which contains the meta object code for those classes. The
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C++ source file generated by the <tt>moc</tt> must be compiled and
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linked with the implementation of the class (or it can be
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<tt>#included</tt> into the class's source file). Typically <tt>moc</tt>
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is not called manually, but automatically by the build system, so it
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requires no additional effort by the programmer.
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<p> There are other precompilers, for example, <tt>rpc</tt> and
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<tt>idl</tt>, that enable programs or objects to communicate over
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process or machine boundaries. The alternatives to precompilers are
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hacked compilers, proprietary languages or graphical programming tools
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with dialogs or wizards that generate obscure code. Rather than locking
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our customers into a proprietary C++ compiler or into a particular
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Integrated Development Environment, we enable them to use whatever tools
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they prefer. Instead of forcing programmers to add generated code into
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source repositories, we encourage them to add our tools to their build
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system: cleaner, safer and more in the spirit of UNIX.
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<p> <h3>3. Flexibility is king</h3>
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<p> C++ is a standarized, powerful and elaborate general-purpose language.
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It's the only language that is exploited on such a wide range of
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software projects, spanning every kind of application from entire
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operating systems, database servers and high end graphics
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applications to common desktop applications. One of the keys to C++'s
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success is its scalable language design that focuses on maximum
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performance and minimal memory consumption whilst still maintaining
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ANSI-C compatibility.
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<p> For all these advantages, there are some downsides. For C++, the static
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object model is a clear disadvantage over the dynamic messaging approach
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of Objective C when it comes to component-based graphical user interface
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programming. What's good for a high end database server or an operating
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system isn't necessarily the right design choice for a GUI frontend.
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With <tt>moc</tt>, we have turned this disadvantage into an advantage,
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and added the flexibility required to meet the challenge of safe and
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efficient graphical user interface programming.
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<p> Our approach goes far beyond anything you can do with templates. For
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example, we can have object properties. And we can have overloaded
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signals and slots, which feels natural when programming in a language
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where overloads are a key concept. Our signals add zero bytes to the
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size of a class instance, which means we can add new signals without
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breaking binary compatibility. Because we do not rely on excessive
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inlining as done with templates, we can keep the code size smaller.
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Adding new connections just expands to a simple function call rather
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than a complex template function.
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<p> Another benefit is that we can explore an object's signals and slots at
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runtime. We can establish connections using type-safe call-by-name,
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without having to know the exact types of the objects we are connecting.
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This is impossible with a template based solution. This kind of runtime
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introspection opens up new possibilities, for example GUIs that are
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generated and connected from TQt Designer's XML <tt>ui</tt> files.
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<p> <h3>4. Calling performance is not everything</h3>
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<p> TQt's signals and slots implementation is not as fast as a template-based
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solution. While emitting a signal is approximately the cost of four
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ordinary function calls with common template implementations, TQt
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requires effort comparable to about ten function calls. This is not
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surprising since the TQt mechanism includes a generic marshaller,
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introspection and ultimately scriptability. It does not rely on
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excessive inlining and code expansion and it provides unmatched runtime
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safety. TQt's iterators are safe while those of faster template-based
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systems are not. Even during the process of emitting a signal to several
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receivers, those receivers can be deleted safely without your program
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crashing. Without this safety, your application would eventually crash
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with a difficult to debug free'd memory read or write error.
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<p> Nonetheless, couldn't a template-based solution improve the performance
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of an application using signals and slots? While it is true that TQt adds
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a small overhead to the cost of calling a slot through a signal, the
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cost of the call is only a small proportion of the entire cost of a
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slot. Benchmarking against TQt's signals and slots system is typically
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done with empty slots. As soon as you do anything useful in your slots,
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for example a few simple string operations, the calling overhead becomes
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negligible. TQt's system is so optimized that anything that requires
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operator new or delete (for example, string operations or
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inserting/removing something from a template container) is significantly
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more expensive than emitting a signal.
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<p> Aside: If you have a signals and slots connection in a tight inner loop
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of a performance critical task and you identify this connection as the
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bottleneck, think about using the standard listener-interface pattern
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rather than signals and slots. In cases where this occurs, you probably
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only require a 1:1 connection anyway. For example, if you have an object
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that downloads data from the network, it's a perfectly sensible design
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to use a signal to indicate that the requested data arrived. But if you
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need to send out every single byte one by one to a consumer, use a
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listener interface rather than signals and slots.
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<p> <h3>5. No limits</h3>
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<p> Because we had the <tt>moc</tt> for signals and slots, we could add
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other useful things to it that could not not be done with templates.
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Among these are scoped translations via a generated <tt>tr()</tt>
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function, and an advanced property system with introspection and
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extended runtime type information. The property system alone is a great
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advantage: a powerful and generic user interface design tool like TQt
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Designer would be a lot harder to write - if not impossible - without a
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powerful and introspective property system.
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<p> C++ with the <tt>moc</tt> preprocessor essentially gives us the
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flexibility of Objective-C or of a Java Runtime Environment, while
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maintaining C++'s unique performance and scalability advantages. It is
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what makes TQt the flexible and comfortable tool we have today.
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<p>
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