wxWindows 2 FAQ: General

See also top-level FAQ page.


List of questions in this category


What is wxWindows?

wxWindows is a class library that allows you to compile graphical C++ programs on a range of different platforms. wxWindows defines a common API across platforms, but uses the native graphical user interface (GUI) on each platform, so your program will take on the native 'look and feel' that users are familiar with.

Although GUI applications are mostly built programmatically, there is a dialog editor to help build attractive dialogs and panels. Robert Roebling's wxDesigner makes light work of resizable, portable dialogs.

You don't have to use C++ to use wxWindows: there is a Python interface for wxWindows 2, and also a Perl interface.

Can I use wxWindows 2 for both proprietary (commercial) projects, and GPL'ed projects?

Yes. Please see the licence for details, but basically you can distribute proprietary binaries without distributing any source code, and neither will wxWindows conflict with GPL code you may be using or developing with it.

The conditions for using wxWindows 2 are the same whether you are a personal, academic or commercial developer.

Is there support?

No official support, but the mailing list is very helpful and some people say that wxWindows support is better than for much commercial software. The developers are keen to fix bugs as soon as possible, though obviously there are no guarantees.

Who uses wxWindows?

Many organisations - commercial, government, and academic - across the world. It's impossible to estimate the true number of users, since wxWindows is obtained by many different means, and we cannot monitor distribution. The mailing list contains around 300-400 entries which is quite large for a list of this type.

See Users for a list of some users and their applications, and also Feedback for comments.

Our highest-profile user yet is industry veteran and Lotus Corp. founder Mitch Kapor and his Open Source Applications Foundation.

What platforms are supported by wxWindows 2?

How does wxWindows 2 support platform-specific features?

This is a hotly-debated topic amongst the developers. My own philosophy is to make wxWindows as platform-independent as possible, but allow in a few classes (functions, window styles) that are platform-specific. For example, Windows metafiles and Windows 95 taskbar icons have their own classes on Windows, but nowhere else. Because these classes are provided and are wxWindows-compatible, it doesn't take much coding effort for an application programmer to add support for some functionality that the user on a particular platform might otherwise miss. Also, some classes that started off as platform-specific, such as the MDI classes, have been emulated on other platforms. I can imagine that even wxTaskBarIcon may be implemented for Unix desktops one day.

In other words, wxWindows is not a 'lowest common denominator' approach, but it will still be possible to write portable programs using the core API. Forbidding some platform-specific classes would be a stupid approach that would alienate many potential users, and encourage the perception that toolkits such as wxWindows are not up to the demands of today's sophisticated applications.

Currently resources such as bitmaps and icons are handled in a platform-specific way, but it is hoped to reduce this dependence in due course.

Another reason why wxWindows 2 is not a 'lowest common denominator' toolkit is that some functionality missing on some platform has been provided using generic, platform-independent code, such as the wxTreeCtrl and wxListCtrl classes.

Does wxWindows use STL? or the standard string class?

No. This is a much-discussed topic that has (many times) ended with the conclusion that it is in wxWindows' best interests to avoid use of templates. Not all compilers can handle templates adequately so it would dramatically reduce the number of compilers and platforms that could be supported. It would also be undersirable to make wxWindows dependent on another large library that may have to be downloaded and installed. In addition, use of templates can lead to executable bloat, which is something wxWindows 2 is strenously trying to avoid.

The standard C++ string class is not used, again because it is not available to all compilers, and it is not necessarily a very efficient implementation. Also, we retain more flexibility by being able to modify our own string class. Some compatibility with the string class has been built into wxString.

There is nothing to stop an application using templates or the string class for its own purposes. With wxWindows debugging options on, you may find you get errors when including STL headers. You can work around it either by switching off memory checking, or by adding this to a header before you include any STL files:

#ifdef new
#undef new
#endif

Is there a rich edit/markup widget for wxWindows 2?

These are the possibilities so far:

How to use C++ exceptions with wxWindows?

wxWindows library itself is unfortunately not exception-safe (as its initial version predates, by far, the addition of the exceptions to the C++ language). However you can still use the exceptions in your own code and use the other libraries using the exceptions for the error reporting together with wxWindows.

There are a few issues to keep in mind, though:

How is wxWindows being developed?

We are using the CVS system to develop and maintain wxWindows. This allows us to make alterations and upload them instantly to the server, from which others can update their source.

To build source from CVS, see the file BuildCVS.txt in the top-level wxWindows distribution directory.

How is wxWindows distributed?

By ftp, and via the wxWindows CD-ROM.

If you are feeling adventurous, you may also check out the sources directly from cvs.

What are the plans for the future?

Currently we're working too hard on getting wxWindows finished (are GUI toolkits ever finished?) to think very far ahead. However, we know we want to make wxWindows as robust and well-publicised as possible. We also want to aim for better platform-independence of resources such as icons and bitmaps, standardising on PNG and XPM for all platforms.

Other possibilities include: DCOM/CORBA compatibility; a wxWindows book; wxWorkshop, an IDE; other platforms, especially embedded systems; other interface abilities such as speech output.

We will investigate the possibility of compiler or operating system vendors bundling wxWindows with their product.

The high-level goal of wxWindows is to be thought of as the number one C++ framework, for virtually any platform. Move over, MFC!

What is wxBase?

wxBase is a subset of wxWindows comprised by the non-GUI classes. It includes wxWindows container and primitive data type classes (including wxString, wxDateTime and so on) and also useful wrappers for the operating system objects such as files, processes, threads, sockets and so on. With very minor exceptions wxBase may be used in exactly the same way as wxWindows but it doesn't require a GUI to run and so is ideal for creating console mode utilities or server programs. It is also possible to create a program which can be compiled either as a console application (using wxBase) or a GUI one (using a full featured wxWindows port).

What is wxUniversal?

The main difference between wxUniversal-based ports (such as wxX11, wxMGL) and other ports (such as wxMSW, wxGTK+, wxMac) is that wxUniversal implements all controls (or widgets) in wxWindows itself thus allowing to have much more flexibility (for example, support for themes even under MS Windows). It also means that it is now much easier to port wxWindows to a new platform as only the low-level classes must be ported which make for a small part of the library.

You may find more about wxUniversal here.

What about Java?

The Java honeymoon period is over :-) and people are realising that it cannot meet all their cross-platform development needs. We don't anticipate a major threat from Java, and the level of interest in wxWindows is as high as ever.

What about .NET/Mono?

Microsoft is spending a lot on promoting the .NET initiative, which is a set of languages, APIs and web service components for Windows. Ximian has started an open source version of .NET, mostly for Linux. C# is Microsoft's alternative to Java, supporting 'managed code', garbage collection and various other Java-like language features.

Although this may be attractive to some developers, there is a variety of reasons why the .NET/Mono combination is unlikely to make wxWindows redundant. Please note that the following comments are Julian Smart's opinions.

  1. Not everyone wants or needs net services.
  2. C++ will be used for a long time to come; compared with C++, C# is a recent development and its future is not certain.
  3. Mono Forms may only target Winelib (at least to begin with), so the end result is not as native as wxWindows (I'm aware there is GTK# for use with the C# language).
  4. C# is usually byte-compiled and therefore slower. Plus, .NET adds a layer of overhead to the client computer that wxWindows does not require.
  5. Mono hasn't proven its long-term viability yet (it's a complex system of components); wxWindows is ready now.
  6. You may not wish to buy into Microsoft marketing spin and APIs.
  7. .NET might never be implemented on some platforms, especially Mac and embedded variants of Linux.
  8. wxPython and other language variants provide further reasons for wxWindows to continue.
  9. The same issue exists for Qt: if Qt sales remain strong, it's a good indication that the market for a C++-based approach is still there. (Either that, or everyone's turning to wxWindows!)
There is nothing to stop folk from developing a C# version of the wxWindows API; we already have bindings to Python, Perl, JavaScript, Lua, Basic, and Eiffel. Update: a wx.NET project is now in progress.

How can I help the project?

Please check out the Community pages, in particular the suggested projects, and mail the developers' mailing list with your own suggestions.