29d21088bb
git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@52339 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
312 lines
12 KiB
C
312 lines
12 KiB
C
/////////////////////////////////////////////////////////////////////////////
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// Name: devtips.h
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// Purpose: Cross-platform development page of the Doxygen manual
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// Author: wxWidgets team
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// RCS-ID: $Id$
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// Licence: wxWindows license
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/////////////////////////////////////////////////////////////////////////////
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/*!
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@page page_multiplatform Multi-platform development with wxWidgets
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This chapter describes the practical details of using wxWidgets. Please
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see the file install.txt for up-to-date installation instructions, and
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changes.txt for differences between versions.
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@li @ref page_multiplatform_includefiles
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@li @ref page_multiplatform_libraries
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@li @ref page_multiplatform_configuration
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@li @ref page_multiplatform_makefiles
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@li @ref page_multiplatform_windowsfiles
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@li @ref page_multiplatform_allocatingobjects
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@li @ref page_multiplatform_architecturedependency
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@li @ref page_multiplatform_conditionalcompilation
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@li @ref page_multiplatform_cpp
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@li @ref page_multiplatform_filehandling
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<hr>
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@section page_multiplatform_includefiles Include files
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The main include file is @c "wx/wx.h"; this includes the most commonly
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used modules of wxWidgets.
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To save on compilation time, include only those header files relevant to the
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source file. If you are using precompiled headers, you should include
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the following section before any other includes:
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@verbatim
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// For compilers that support precompilation, includes "wx.h".
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#include <wx/wxprec.h>
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#ifdef __BORLANDC__
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#pragma hdrstop
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#endif
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#ifndef WX_PRECOMP
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// Include your minimal set of headers here, or wx.h
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#include <wx/wx.h>
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#endif
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... now your other include files ...
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@endverbatim
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The file @c "wx/wxprec.h" includes @c "wx/wx.h". Although this incantation
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may seem quirky, it is in fact the end result of a lot of experimentation,
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and several Windows compilers to use precompilation which is largely automatic for
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compilers with necessary support. Currently it is used for Visual C++ (including
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embedded Visual C++), Borland C++, Open Watcom C++, Digital Mars C++
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and newer versions of GCC.
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Some compilers might need extra work from the application developer to set the
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build environment up as necessary for the support.
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@section page_multiplatform_libraries Libraries
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Most ports of wxWidgets can create either a static library or a shared
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library. wxWidgets can also be built in multilib and monolithic variants.
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See the @ref page_libs for more information on these.
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@section page_multiplatform_configuration Configuration
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When using project files and makefiles directly to build wxWidgets,
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options are configurable in the file
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@c "wx/XXX/setup.h" where XXX is the required platform (such as msw, motif, gtk, mac). Some
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settings are a matter of taste, some help with platform-specific problems, and
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others can be set to minimize the size of the library. Please see the setup.h file
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and @c install.txt files for details on configuration.
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When using the 'configure' script to configure wxWidgets (on Unix and other platforms where
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configure is available), the corresponding setup.h files are generated automatically
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along with suitable makefiles. When using the RPM packages
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for installing wxWidgets on Linux, a correct setup.h is shipped in the package and
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this must not be changed.
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@section page_multiplatform_makefiles Makefiles
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On Microsoft Windows, wxWidgets has a different set of makefiles for each
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compiler, because each compiler's 'make' tool is slightly different.
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Popular Windows compilers that we cater for, and the corresponding makefile
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extensions, include: Microsoft Visual C++ (.vc), Borland C++ (.bcc),
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OpenWatcom C++ (.wat) and MinGW/Cygwin (.gcc). Makefiles are provided
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for the wxWidgets library itself, samples, demos, and utilities.
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On Linux, Mac and OS/2, you use the 'configure' command to
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generate the necessary makefiles. You should also use this method when
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building with MinGW/Cygwin on Windows.
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We also provide project files for some compilers, such as
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Microsoft VC++. However, we recommend using makefiles
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to build the wxWidgets library itself, because makefiles
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can be more powerful and less manual intervention is required.
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On Windows using a compiler other than MinGW/Cygwin, you would
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build the wxWidgets library from the build/msw directory
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which contains the relevant makefiles.
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On Windows using MinGW/Cygwin, and on Unix, MacOS X and OS/2, you invoke
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'configure' (found in the top-level of the wxWidgets source hierarchy),
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from within a suitable empty directory for containing makefiles, object files and
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libraries.
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For details on using makefiles, configure, and project files,
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please see docs/xxx/install.txt in your distribution, where
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xxx is the platform of interest, such as msw, gtk, x11, mac.
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@section page_multiplatform_windowsfiles Windows-specific files
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wxWidgets application compilation under MS Windows requires at least one
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extra file: a resource file.
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@subsection page_multiplatform_windowsfiles_resources Resource file
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The least that must be defined in the Windows resource file (extension RC)
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is the following statement:
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@verbatim
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#include "wx/msw/wx.rc"
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@endverbatim
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which includes essential internal wxWidgets definitions. The resource script
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may also contain references to icons, cursors, etc., for example:
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@verbatim
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wxicon icon wx.ico
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@endverbatim
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The icon can then be referenced by name when creating a frame icon. See
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the MS Windows SDK documentation.
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@note include wx.rc @e after any ICON statements
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so programs that search your executable for icons (such
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as the Program Manager) find your application icon first.
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@section page_multiplatform_allocatingobjects Allocating and deleting wxWidgets objects
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In general, classes derived from wxWindow must dynamically allocated
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with @e new and deleted with @e delete. If you delete a window,
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all of its children and descendants will be automatically deleted,
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so you don't need to delete these descendants explicitly.
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When deleting a frame or dialog, use @b Destroy rather than @b delete so
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that the wxWidgets delayed deletion can take effect. This waits until idle time
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(when all messages have been processed) to actually delete the window, to avoid
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problems associated with the GUI sending events to deleted windows.
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Don't create a window on the stack, because this will interfere
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with delayed deletion.
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If you decide to allocate a C++ array of objects (such as wxBitmap) that may
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be cleaned up by wxWidgets, make sure you delete the array explicitly
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before wxWidgets has a chance to do so on exit, since calling @e delete on
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array members will cause memory problems.
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wxColour can be created statically: it is not automatically cleaned
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up and is unlikely to be shared between other objects; it is lightweight
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enough for copies to be made.
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Beware of deleting objects such as a wxPen or wxBitmap if they are still in use.
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Windows is particularly sensitive to this: so make sure you
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make calls like wxDC::SetPen(wxNullPen) or wxDC::SelectObject(wxNullBitmap) before deleting
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a drawing object that may be in use. Code that doesn't do this will probably work
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fine on some platforms, and then fail under Windows.
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@section page_multiplatform_architecturedependency Architecture dependency
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A problem which sometimes arises from writing multi-platform programs is that
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the basic C types are not defined the same on all platforms. This holds true
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for both the length in bits of the standard types (such as int and long) as
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well as their byte order, which might be little endian (typically
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on Intel computers) or big endian (typically on some Unix workstations). wxWidgets
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defines types and macros that make it easy to write architecture independent
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code. The types are:
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wxInt32, wxInt16, wxInt8, wxUint32, wxUint16 = wxWord, wxUint8 = wxByte
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where wxInt32 stands for a 32-bit signed integer type etc. You can also check
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which architecture the program is compiled on using the wxBYTE_ORDER define
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which is either wxBIG_ENDIAN or wxLITTLE_ENDIAN (in the future maybe wxPDP_ENDIAN
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as well).
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The macros handling bit-swapping with respect to the applications endianness
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are described in the @ref page_macro_cat_byteorder section.
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@section page_multiplatform_conditionalcompilation Conditional compilation
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One of the purposes of wxWidgets is to reduce the need for conditional
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compilation in source code, which can be messy and confusing to follow.
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However, sometimes it is necessary to incorporate platform-specific
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features (such as metafile use under MS Windows). The @ref page_wxusedef
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symbols listed in the file @c setup.h may be used for this purpose,
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along with any user-supplied ones.
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@section page_multiplatform_cpp C++ issues
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The following documents some miscellaneous C++ issues.
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@subsection page_multiplatform_cpp_templates Templates
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wxWidgets does not use templates (except for some advanced features that
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are switched off by default) since it is a notoriously unportable feature.
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@subsection page_multiplatform_cpp_rtti RTTI
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wxWidgets does not use C++ run-time type information since wxWidgets provides
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its own run-time type information system, implemented using macros.
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@subsection page_multiplatform_cpp_null Type of NULL
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Some compilers (e.g. the native IRIX cc) define NULL to be 0L so that
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no conversion to pointers is allowed. Because of that, all these
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occurrences of NULL in the GTK+ port use an explicit conversion such
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as
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@code
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wxWindow *my_window = (wxWindow*) NULL;
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@endcode
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It is recommended to adhere to this in all code using wxWidgets as
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this make the code (a bit) more portable.
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@subsection page_multiplatform_cpp_precompiledheaders Precompiled headers
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Some compilers, such as Borland C++ and Microsoft C++, support
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precompiled headers. This can save a great deal of compiling time. The
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recommended approach is to precompile @c "wx.h", using this
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precompiled header for compiling both wxWidgets itself and any
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wxWidgets applications. For Windows compilers, two dummy source files
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are provided (one for normal applications and one for creating DLLs)
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to allow initial creation of the precompiled header.
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However, there are several downsides to using precompiled headers. One
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is that to take advantage of the facility, you often need to include
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more header files than would normally be the case. This means that
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changing a header file will cause more recompilations (in the case of
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wxWidgets, everything needs to be recompiled since everything includes @c "wx.h" !)
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A related problem is that for compilers that don't have precompiled
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headers, including a lot of header files slows down compilation
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considerably. For this reason, you will find (in the common
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X and Windows parts of the library) conditional
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compilation that under Unix, includes a minimal set of headers;
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and when using Visual C++, includes @c wx.h. This should help provide
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the optimal compilation for each compiler, although it is
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biased towards the precompiled headers facility available
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in Microsoft C++.
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@section page_multiplatform_filehandling File handling
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When building an application which may be used under different
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environments, one difficulty is coping with documents which may be
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moved to different directories on other machines. Saving a file which
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has pointers to full pathnames is going to be inherently unportable.
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One approach is to store filenames on their own, with no directory
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information. The application then searches into a list of standard
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paths (platform-specific) through the use of wxStandardPaths.
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Eventually you may want to use also the wxPathList class.
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Nowadays the limitations of DOS 8+3 filenames doesn't apply anymore.
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Most modern operating systems allow at least 255 characters in the filename;
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the exact maximum length, as well as the characters allowed in the filenames,
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are OS-specific so you should try to avoid extremely long (> 255 chars) filenames
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and/or filenames with non-ANSI characters.
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Another thing you need to keep in mind is that all Windows operating systems
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are case-insensitive, while Unix operating systems (Linux, Mac, etc) are
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case-sensitive.
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Also, for text files, different OSes use different End Of Lines (EOL).
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Windows uses CR+LF convention, Linux uses LF only, Mac CR only.
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The wxTextFile, wxTextInputStream, wxTextOutputStream classes help to abstract
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from these differences.
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Of course, there are also 3rd party utilities such as @c dos2unix and @c unix2dos
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which do the EOL conversions.
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See also the @ref page_func_cat_file section of the reference
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manual for the description of miscellaneous file handling functions.
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*/
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