2005-07-04 08:28:59 -04:00
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%% Name: backwardcompat.tex
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%% Purpose: Explains how much and what kind of backward compatibility users
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%% can expect
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%% Author: M.J.Wetherell
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%% RCS-ID: $Id$
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%% Copyright: 2005 M.J.Wetherell
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%% License: wxWindows license
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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2005-08-13 16:47:26 -04:00
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\section{Backward compatibility}\label{backwardcompatibility}
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Many of the GUIs and platforms supported by wxWidgets are continuously
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evolving, and some of the new platforms wxWidgets now supports were quite
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unimaginable even a few years ago. In this environment wxWidgets must also
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evolve in order to support these new features and platforms.
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However the goal of wxWidgets is not only to provide a consistent
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programming interface across many platforms, but also to provide an
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interface that is reasonably stable over time, to help protect its users
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from some of the uncertainty of the future.
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\subsection{The version numbering scheme}\label{versionnumbering}
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wxWidgets version numbers can have up to four components, with trailing
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zeros sometimes omitted:
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\begin{verbatim}
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major.minor.release.sub-release
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\end{verbatim}
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A {\em stable} release of wxWidgets will have an even number for {\tt
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minor}, e.g. {\tt 2.6.0}.
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Stable, in this context, means that the API is not changing. In truth, some
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changes are permitted, but only those that are backward compatible. For
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example, you can expect later {\tt 2.6.x.x} releases, such as {\tt 2.6.1}
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and {\tt 2.6.2} to be backward compatible with their predecessor.
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When it becomes necessary to make changes which are not wholly backward
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compatible, the stable branch is forked, creating a new {\em development}
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branch of wxWidgets. This development branch will have an odd number
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for {\tt minor}, for example {\tt 2.7.x.x}. Releases from this branch are
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known as {\em development snapshots}.
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The stable branch and the development branch will then be developed in
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parallel for some time. When it is no longer useful to continue developing
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the stable branch, the development branch is renamed and becomes a new
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stable branch, for example {\tt 2.8.0}. And the process begins again.
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This is how the tension between keeping the interface stable, and allowing
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the library to evolve is managed.
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You can expect the versions with the same major and {\em even} minor
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version number to be compatible, but between minor versions there will be
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incompatibilities. Compatibility is not broken gratuitously however, so
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many applications will require no changes or only small changes to work
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with the new version.
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\subsection{Source level compatibility}\label{sourcecompatibility}
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Later releases from a stable branch are backward compatible with earlier
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releases from the same branch at the {\em source} level.
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This means that, for example, if you develop your application using
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wxWidgets {\tt 2.6.0} then it should also compile fine with all later {\tt
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2.6.x} versions. The converse is also true providing you avoid any new
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features not present in the earlier version. For example if you develop
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using {\tt 2.6.1} your program will compile fine with wxWidgets {\tt 2.6.0}
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providing you don't use any {\tt 2.6.1} specific features.
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For some platforms binary compatibility is also supported, see 'Library
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binary compatibility' below.
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Between minor versions, for example between {\tt 2.2.x}, {\tt 2.4.x} and {\tt
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2.6.x}, there will be some incompatibilities. Wherever possible the old way
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of doing something is kept alongside the new for a time wrapped inside:
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\begin{verbatim}
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#if WXWIN_COMPATIBILITY_2_4
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/* deprecated feature */
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...
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#endif
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\end{verbatim}
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By default the {\tt WXWIN\_COMPATIBILITY{\it \_X\_X}} macro is set
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to 1 for the previous stable branch, for example
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in {\tt 2.6.x} {\tt WXWIN\_COMPATIBILITY\_2\_4 = 1}. For the next earlier
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stable branch the default is 0, so {\tt WXWIN\_COMPATIBILITY\_2\_2 = 0}
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for {\tt 2.6.x}. Earlier than that, obsolete features are removed.
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These macros can be changed in {\tt setup.h}. Or on UNIX-like systems you can
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set them using the {\tt --disable-compat24} and {\tt --enable-compat22}
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options to {\tt configure}.
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They can be useful in two ways:
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\begin{enumerate}
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\item Changing {\tt WXWIN\_COMPATIBILITY\_2\_4} to 0 can be useful to
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find uses of deprecated features in your program.
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\item Changing {\tt WXWIN\_COMPATIBILITY\_2\_2} to 1 can be useful to
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compile a program developed using {\tt 2.2.x} that no longer compiles
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with {\tt 2.6.x}.
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\end{enumerate}
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A program requiring one of these macros to be 1 will become
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incompatible with some future version of wxWidgets, and you should consider
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updating it.
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2005-08-13 16:47:26 -04:00
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\subsection{Library binary compatibility}\label{libbincompatibility}
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For some platforms, releases from a stable branch are not only source level
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compatible but can also be {\em binary compatible}.
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Binary compatibility makes it possible to get the maximum benefit from
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using shared libraries, also known as dynamic link libraries (DLLs) on
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Windows or dynamic shared libraries on OS X.
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For example, suppose several applications are installed on a system requiring
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wxWidgets {\tt 2.6.0}, {\tt 2.6.1} and {\tt 2.6.2}. Since {\tt 2.6.2} is
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backward compatible with the earlier versions, it should be enough to
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install just wxWidgets {\tt 2.6.2} shared libraries, and all the applications
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should be able to use them. If binary compatibility is not supported, then all
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the required versions {\tt 2.6.0}, {\tt 2.6.1} and {\tt 2.6.2} must be
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installed side by side.
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2005-07-04 10:59:36 -04:00
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Achieving this, without the user being required to have the source code
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and recompile everything, places many extra constraints on the changes
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that can be made within the stable branch. So it is not supported for all
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platforms, and not for all versions of wxWidgets. To date it has mainly
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been supported by wxGTK for UNIX-like platforms.
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Another practical consideration is that for binary compatibility to work,
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all the applications and libraries must have been compiled with compilers
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that are capable of producing compatible code; that is, they must use the
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same ABI (Application Binary Interface). Unfortunately most different C++
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compilers do not produce code compatible with each other, and often even
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different versions of the same compiler are not compatible.
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2005-08-13 16:47:26 -04:00
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\subsection{Application binary compatibility}\label{appbincompatibility}
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The most important aspect of binary compatibility is that applications
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compiled with one version of wxWidgets, e.g. {\tt 2.6.1}, continue to work
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with shared libraries of a later binary compatible version, for example {\tt
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2.6.2}.
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The converse can also be useful however. That is, it can be useful for a
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developer using a later version, e.g. {\tt 2.6.2} to be able to create binary
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application packages that will work with all binary compatible versions of
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the shared library starting with, for example {\tt 2.6.0}.
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To do this the developer must, of course, avoid any features not available
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in the earlier versions. However this is not necessarily enough; in some
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cases an application compiled with a later version may depend on it even
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though the same code would compile fine against an earlier version.
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% thinks: a situation we should try to avoid.
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To help with this, a preprocessor symbol {\tt wxABI\_VERSION} can be defined
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during the compilation of the application (this would usually be done in the
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application's makefile or project settings). It should be set to the lowest
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version that is being targeted, as a number with two decimal digits for each
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component, for example {\tt wxABI\_VERSION=20600} for {\tt 2.6.0}.
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Setting {\tt wxABI\_VERSION} should prevent the application from implicitly
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depending on a later version of wxWidgets, and also disables any new features
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in the API, giving a compile time check that the source is compatible with
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the versions of wxWidgets being targeted.
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Uses of {\tt wxABI\_VERSION} are stripped out of the wxWidgets sources when
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each new development branch is created. Therefore it is only useful to help
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achieve compatibility with earlier versions with the same major
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and {\em even} minor version numbers. It won't, for example, help you write
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code compatible with {\tt 2.4.x} using wxWidgets {\tt 2.6.x}.
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