Ubuntu Manpage: qwtinstall - .TH "qwtinstall" 3 "Fri Apr 15 2011" "Version 6.0.0" "Qwt User's Guide"

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       qwtinstall - .TH "qwtinstall" 3 "Fri Apr 15 2011" "Version 6.0.0" "Qwt User's Guide"

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       qwtinstall - .PP
       Introduction
       ============

       Qwt uses qmake to build all its components and examples.
       qmake is part of a Qt distribution.

       qmake reads project files, that contain the options and rules how to
       build a certain project. A project file ends with the suffix '*.pro'.
       Files that end with the suffix '*.pri' are included by the project
       files and contain definitions, that are common for several project files.

       qwtconfig.pri and qwtbuild.pri are read by all project files of the Qwt
       package. qwtconfig.pri is also read by qwt.prf, when building your
       application. So the first step is to edit the *.pri files to adjust
       them to your needs.

       The subdirs template of qmake is known to be buggy when using spaces
       in path names. So better don't build Qwt below a path name with spaces.
       ( Otherwise you might have to run qmake in all subdirs manually ).

       Documentation
       ==========================

       Qwt includes a class documentation, that is available in various formats:

       - Html files
       - PDF document
       - Qt Compressed Help (*.qch ) for the Qt assistant or creator.
         You can load it 'Edit Preferences' -> 'Documentation' -> 'Add...'
       - Man pages ( UNIX only )

       Building Qwt
       ==========================

       The easiest way to build Qwt is from the command line - but you insist on
       using an IDE don't forget the 'make install' step.

       A) Unix
       --------

       qmake
       make
       make install

       If you have installed a shared library it's path has to be known to
       the run-time linker of your operating system. On Linux systems read
       the LD_LIBRARY_PATH (on some systems LIBPATH is used instead, on MacOSX
       it is called DYLD_LIBRARY_PATH) environment variable.

       If you only want to check the Qwt examples without installing something,
       you can set the LD_LIBRARY_PATH to the lib directory
       of your local build.

       If you didn't enable autobuilding of the examples in qwtconfig.pri
       you have to build the examples this way:

       cd examples
       qmake
       make

       B) Win32/MSVC
       --------

       Check that your Qt version has been built with MSVC - not with MinGW !

       Please read the qmake documentation how to convert
       your *.pro files into your development environment.

       F.e MSVC with nmake:
       qmake qwt.pro
       nmake
       nmake install

       If you didn't enable autobuilding of the examples in qwtconfig.pri
       you have to build the examples this way:

       cd examples
       qmake examples.pro
       nmake

       Windows doesn't like mixing of debug and release binaries. Most
       of the problems with using the Qwt designer plugin are because
       of trying to load a Qwt debug library into a designer release
       executable.

       It's not possible to load a plugin, that has been built with MinGW
       into a Qt Designer/Creator, that has been built with MSVC ( and v.v ).
       This is a common reason for problems, when working with prebuild
       binaries of the Qt Creator.

       C) Win32/MinGW
       --------

       Check that your Qt version has been built with MinGW - not with MSVC !

       Start a Shell, where Qt4 is initialized. ( F.e. with
       Check if you can execute 'make' or something like 'mingw32-make'.

       qmake qwt.pro
       make
       make install

       If you didn't enable autobuilding of the examples in qwtconfig.pri
       you have to build the examples this way:

       cd examples
       qmake examples.pro
       make

       Windows doesn't like mixing of debug and release binaries. Most
       of the problems with using the Qwt designer plugin are because
       of trying to load a Qwt debug library into a designer release
       executable.

       Don't forget to tell qmake where to find qwt.prf:
       qmake -set QMAKEFEATURES ...

       D) MacOSX
       --------

       Well, the Mac is only another Unix system. So read the instructions in A).

       In the recent Qt4 releases the default target of qmake is to generate
       XCode project files instead of makefiles. So you might need to do the
       following:

       qmake -spec macx-g++

       D) Qt Embedded
       --------

       I only tested Qwt with Qt Embedded in qvfb (Virtual Framebuffer Devivce)
       Emulator on my Linux box. To build Qwt for the emulator was as simple as
       for a regular Unix build.

       F) Symbian
       --------

       I never tried this platform myself.

       Using Qwt
       ===========

       For building a Qwt application with qmake use the Qwt configuration features
       file, that has been installed by 'make install'. When qmake is able to find
       it ( http://doc.qt.nokia.com/4.7/qmake-advanced-usage.html#adding-new-configuration-features )
       you can simply add 'CONFIG += qwt' to your application project file.

       If you don't use qmake you have to add the include path to find the Qwt
       headers to your compiler flags and the Qwt library to your linker list.
       Don't forget to add QWT_DLL to the compiler flags, when you work with a
       Qwt-DLLs on Windows.

       For using the designer plugin you have to configure the Qt designer/creator
       where to look for plugins. This can be done by setting the QT_PLUGIN_PATH or
       using a qt.conf file ( see http://doc.qt.nokia.com/4.7/deployment-plugins.html ).
       Beside the plugin the Qwt library itsself also needs to be known to the Designer/Creator
       ( see LD_LIBRARY_PATH, PATH ... above ).

       Good luck !