X-Git-Url: https://git.saurik.com/wxWidgets.git/blobdiff_plain/36c9828f702fb504b07968703bcd82f04196070a..7447d53c35249d42128d6243c90998f03882859a:/docs/doxygen/overviews/backwardcompatibility.h?ds=sidebyside diff --git a/docs/doxygen/overviews/backwardcompatibility.h b/docs/doxygen/overviews/backwardcompatibility.h index e9faddb2ea..41e2083eb5 100644 --- a/docs/doxygen/overviews/backwardcompatibility.h +++ b/docs/doxygen/overviews/backwardcompatibility.h @@ -1,159 +1,173 @@ ///////////////////////////////////////////////////////////////////////////// -// Name: backwardcompatibility +// Name: backwardcompatibility.h // Purpose: topic overview // Author: wxWidgets team // RCS-ID: $Id$ -// Licence: wxWindows license +// Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// -/*! - - @page backwardcompatibility_overview Backward compatibility - - Many of the GUIs and platforms supported by wxWidgets are continuously - evolving, and some of the new platforms wxWidgets now supports were quite - unimaginable even a few years ago. In this environment wxWidgets must also - evolve in order to support these new features and platforms. - However the goal of wxWidgets is not only to provide a consistent - programming interface across many platforms, but also to provide an - interface that is reasonably stable over time, to help protect its users - from some of the uncertainty of the future. - @ref versionnumbering_overview - @ref sourcecompatibility_overview - @ref libbincompatibility_overview - @ref appbincompatibility_overview - - - @section versionnumbering The version numbering scheme - - wxWidgets version numbers can have up to four components, with trailing - zeros sometimes omitted: - - @code - major.minor.release.sub-release - @endcode - - A stable release of wxWidgets will have an even number for @c minor, e.g. @c 2.6.0. - Stable, in this context, means that the API is not changing. In truth, some - changes are permitted, but only those that are backward compatible. For - example, you can expect later @c 2.6.x.x releases, such as @c 2.6.1 - and @c 2.6.2 to be backward compatible with their predecessor. - When it becomes necessary to make changes which are not wholly backward - compatible, the stable branch is forked, creating a new development - branch of wxWidgets. This development branch will have an odd number - for @c minor, for example @c 2.7.x.x. Releases from this branch are - known as development snapshots. - The stable branch and the development branch will then be developed in - parallel for some time. When it is no longer useful to continue developing - the stable branch, the development branch is renamed and becomes a new - stable branch, for example @c 2.8.0. And the process begins again. - This is how the tension between keeping the interface stable, and allowing - the library to evolve is managed. - You can expect the versions with the same major and even minor - version number to be compatible, but between minor versions there will be - incompatibilities. Compatibility is not broken gratuitously however, so - many applications will require no changes or only small changes to work - with the new version. - - @section sourcecompatibility Source level compatibility - - Later releases from a stable branch are backward compatible with earlier - releases from the same branch at the source level. - This means that, for example, if you develop your application using - wxWidgets @c 2.6.0 then it should also compile fine with all later @c 2.6.x versions. The converse is also @true providing you avoid any new - features not present in the earlier version. For example if you develop - using @c 2.6.1 your program will compile fine with wxWidgets @c 2.6.0 - providing you don't use any @c 2.6.1 specific features. - For some platforms binary compatibility is also supported, see 'Library - binary compatibility' below. - Between minor versions, for example between @c 2.2.x, @c 2.4.x and @c 2.6.x, there will be some incompatibilities. Wherever possible the old way - of doing something is kept alongside the new for a time wrapped inside: - - @code - #if WXWIN_COMPATIBILITY_2_4 - /* deprecated feature */ -... +/** + +@page overview_backwardcompat Backwards Compatibility + +Many of the GUIs and platforms supported by wxWidgets are continuously +evolving, and some of the new platforms wxWidgets now supports were quite +unimaginable even a few years ago. In this environment wxWidgets must also +evolve in order to support these new features and platforms. + +However the goal of wxWidgets is not only to provide a consistent programming +interface across many platforms, but also to provide an interface that is +reasonably stable over time, to help protect its users from some of the +uncertainty of the future. + +@li @ref overview_backwardcompat_versionnumbering +@li @ref overview_backwardcompat_sourcecompat +@li @ref overview_backwardcompat_libbincompat +@li @ref overview_backwardcompat_appbincompat + + +
+ + +@section overview_backwardcompat_versionnumbering The Version Numbering Scheme + +wxWidgets version numbers can have up to four components, with trailing zeros +sometimes omitted: + +@verbatim +major.minor.release.sub-release +@endverbatim + +A stable release of wxWidgets will have an even number for @e minor, e.g. +2.6.0. Stable, in this context, means that the API is not changing. In truth, +some changes are permitted, but only those that are backward compatible. For +example, you can expect later 2.6.x releases, such as 2.6.1 and 2.6.2 to be +backward compatible with their predecessor. + +When it becomes necessary to make changes which are not wholly backward +compatible, the stable branch is forked, creating a new development branch of +wxWidgets. This development branch will have an odd number for @e minor, for +example 2.7.x. Releases from this branch are known as development snapshots. + +The stable branch and the development branch will then be developed in parallel +for some time. When it is no longer useful to continue developing the stable +branch, the development branch is renamed and becomes a new stable branch, for +example: 2.8.0. And the process begins again. This is how the tension between +keeping the interface stable, and allowing the library to evolve is managed. + +You can expect the versions with the same major and even minor version number +to be compatible, but between minor versions there will be incompatibilities. +Compatibility is not broken gratuitously however, so many applications will +require no changes or only small changes to work with the new version. + + +@section overview_backwardcompat_sourcecompat Source Level Compatibility + +Later releases from a stable branch are backward compatible with earlier +releases from the same branch at the source level. This means that, for +example, if you develop your application using wxWidgets 2.8.0 then it should +also compile fine with all later 2.8.x versions. + +The converse is also true providing you avoid any new features not present in +the earlier version. For example if you develop using 2.6.1 your program will +compile fine with wxWidgets 2.8.0 providing you don't use any 2.8.1 specific +features. + +For some platforms binary compatibility is also supported, see +@ref overview_backwardcompat_libbincompat below. + +Between minor versions, for example between 2.4.x, 2.6.x and 2.8.x, there will +be some incompatibilities. Wherever possible the old way of doing something is +kept alongside the new for a time wrapped inside: + +@code +#if WXWIN_COMPATIBILITY_2_6 + // deprecated feature + ... #endif @endcode -By default the @c WXWIN_COMPATIBILITY@e _X_X macro is set - to 1 for the previous stable branch, for example - in @c 2.6.x @c WXWIN_COMPATIBILITY_2_4 = 1. For the next earlier - stable branch the default is 0, so @c WXWIN_COMPATIBILITY_2_2 = 0 - for @c 2.6.x. Earlier than that, obsolete features are removed. - These macros can be changed in @c setup.h. Or on UNIX-like systems you can - set them using the @c --disable-compat24 and @c --enable-compat22 - options to @c configure. - They can be useful in two ways: +By default the @c WXWIN_COMPATIBILITY_X_X macro is set to 1 for the previous +stable branch, for example in 2.8.x, @c WXWIN_COMPATIBILITY_2_6 = 1. For the +next earlier stable branch the default is 0, so @c WXWIN_COMPATIBILITY_2_4 = 0 +for 2.8.x. Earlier than that, obsolete features are removed. + +These macros can be changed in @c setup.h. Or on UNIX-like systems you can set +them using the @c --disable-compat26 and @c --enable-compat24 options to +configure. +They can be useful in two ways: -Changing @c WXWIN_COMPATIBILITY_2_4 to 0 can be useful to -find uses of deprecated features in your program. -Changing @c WXWIN_COMPATIBILITY_2_2 to 1 can be useful to -compile a program developed using @c 2.2.x that no longer compiles -with @c 2.6.x. +@li Changing @c WXWIN_COMPATIBILITY_2_6 to 0 can be useful to find uses of + deprecated features in your program that should eventually be removed. +@li Changing @c WXWIN_COMPATIBILITY_2_4 to 1 can be useful to compile a program + developed using 2.4.x that no longer compiles with 2.8.x. +A program requiring one of these macros to be 1 will become incompatible with +some future version of wxWidgets, and you should consider updating it. -A program requiring one of these macros to be 1 will become -incompatible with some future version of wxWidgets, and you should consider -updating it. -@section libbincompatibility Library binary compatibility +@section overview_backwardcompat_libbincompat Library Binary Compatibility For some platforms, releases from a stable branch are not only source level compatible but can also be binary compatible. -Binary compatibility makes it possible to get the maximum benefit from -using shared libraries, also known as dynamic link libraries (DLLs) on -Windows or dynamic shared libraries on OS X. -For example, suppose several applications are installed on a system requiring -wxWidgets @c 2.6.0, @c 2.6.1 and @c 2.6.2. Since @c 2.6.2 is -backward compatible with the earlier versions, it should be enough to -install just wxWidgets @c 2.6.2 shared libraries, and all the applications -should be able to use them. If binary compatibility is not supported, then all -the required versions @c 2.6.0, @c 2.6.1 and @c 2.6.2 must be -installed side by side. -Achieving this, without the user being required to have the source code -and recompile everything, places many extra constraints on the changes -that can be made within the stable branch. So it is not supported for all -platforms, and not for all versions of wxWidgets. To date it has mainly - been supported by wxGTK for UNIX-like platforms. - Another practical consideration is that for binary compatibility to work, - all the applications and libraries must have been compiled with compilers - that are capable of producing compatible code; -that is, they must use the -same ABI (Application Binary Interface). Unfortunately most different C++ -compilers do not produce code compatible with each other, and often even - different versions of the same compiler are not compatible. - - @section appbincompatibility Application binary compatibility - - The most important aspect of binary compatibility is that applications - compiled with one version of wxWidgets, e.g. @c 2.6.1, continue to work - with shared libraries of a later binary compatible version, for example @c 2.6.2. - The converse can also be useful however. That is, it can be useful for a - developer using a later version, e.g. @c 2.6.2 to be able to create binary - application packages that will work with all binary compatible versions of - the shared library starting with, for example @c 2.6.0. - To do this the developer must, of course, avoid any features not available - in the earlier versions. However this is not necessarily enough; -in some -cases an application compiled with a later version may depend on it even -though the same code would compile fine against an earlier version. -To help with this, a preprocessor symbol @c wxABI_VERSION can be defined -during the compilation of the application (this would usually be done in the - application's makefile or project settings). It should be set to the lowest - version that is being targeted, as a number with two decimal digits for each - component, for example @c wxABI_VERSION=20600 for @c 2.6.0. - Setting @c wxABI_VERSION should prevent the application from implicitly - depending on a later version of wxWidgets, and also disables any new features - in the API, giving a compile time check that the source is compatible with - the versions of wxWidgets being targeted. - Uses of @c wxABI_VERSION are stripped out of the wxWidgets sources when - each new development branch is created. Therefore it is only useful to help - achieve compatibility with earlier versions with the same major - and even minor version numbers. It won't, for example, help you write - code compatible with @c 2.4.x using wxWidgets @c 2.6.x. - - */ +Binary compatibility makes it possible to get the maximum benefit from using +shared libraries, also known as dynamic link libraries (DLLs) on Windows or +dynamic shared libraries on OS X. + +For example, suppose several applications are installed on a system requiring +wxWidgets 2.6.0, 2.6.1 and 2.6.2. Since 2.6.2 is backward compatible with the +earlier versions, it should be enough to install just wxWidgets 2.6.2 shared +libraries, and all the applications should be able to use them. If binary +compatibility is not supported, then all the required versions 2.6.0, 2.6.1 and +2.6.2 must be installed side by side. + +Achieving this, without the user being required to have the source code and +recompile everything, places many extra constraints on the changes that can be +made within the stable branch. So it is not supported for all platforms, and +not for all versions of wxWidgets. To date it has mainly been supported by +wxGTK for UNIX-like platforms. + +Another practical consideration is that for binary compatibility to work, all +the applications and libraries must have been compiled with compilers that are +capable of producing compatible code; that is, they must use the same ABI +(Application Binary Interface). Unfortunately most different C++ compilers do +not produce code compatible with each other, and often even different versions +of the same compiler are not compatible. + + +@section overview_backwardcompat_appbincompat Application Binary Compatibility + +The most important aspect of binary compatibility is that applications compiled +with one version of wxWidgets, e.g. 2.6.1, continue to work with shared +libraries of a later binary compatible version, for example 2.6.2. The converse +can also be useful however. That is, it can be useful for a developer using a +later version, e.g. 2.6.2 to be able to create binary application packages that +will work with all binary compatible versions of the shared library starting +with, for example 2.6.0. + +To do this the developer must, of course, avoid any features not available in +the earlier versions. However this is not necessarily enough; in some cases an +application compiled with a later version may depend on it even though the same +code would compile fine against an earlier version. + +To help with this, a preprocessor symbol @c wxABI_VERSION can be defined during +the compilation of the application (this would usually be done in the +application's makefile or project settings). It should be set to the lowest +version that is being targeted, as a number with two decimal digits for each +component, for example @c wxABI_VERSION=20600 for 2.6.0. + +Setting @c wxABI_VERSION should prevent the application from implicitly +depending on a later version of wxWidgets, and also disables any new features +in the API, giving a compile time check that the source is compatible with the +versions of wxWidgets being targeted. + +Uses of @c wxABI_VERSION are stripped out of the wxWidgets sources when each +new development branch is created. Therefore it is only useful to help achieve +compatibility with earlier versions with the same major and even minor version +numbers. It won't, for example, help you write code compatible with 2.6.x using +wxWidgets 2.8.x. + +*/