/*!
\page page_buildinstructions Build Instructions
This page explains how to build JKQTPlotter and to use the results in your own Projects.
\tableofcontents
\section page_buildinstructions_CMAKE Build using CMake
\subsection page_buildinstructions_CMAKE_RUN Running a Build with CMake
The preferred way to build JKQTPlotter is using CMake. You can find a detailed explanation of CMake at https://cliutils.gitlab.io/modern-cmake/. The CMake-build is defined in `CMakeLists.txt` files, found in many of the directories of the code repository. Especially in the root directory and the two subdirectories \c ./lib/ and \c ./examples/ .
You can build JKQTPlotter (and also the examples) by either opening the file CMakeLists.txt in QTCreator (which has CMake integration), or by calling \c CMake by hand. How to do this depends on your local system und build environment.
\subsubsection page_buildinstructions_CMAKE_MAKEFILE Building with MinGW/GNU/... Makefiles
You can use (MinGW) Makefiles by calling:
\code{.sh}
$ mkdir build
$ cd build
$ cmake .. -G "MinGW Makefiles" "-DCMAKE_PREFIX_PATH="
$ cmake --build . --config "Debug"
$ cmake --build . --config "Debug" --target install
\endcode
\subsubsection page_buildinstructions_CMAKE_VSTUDIO Building with Visual Studio
For Visual Studio it could look like this:
\code{.sh}
$ mkdir build
$ cd build
$ cmake .. -G "Visual Studio 15 2017 Win64" "-DCMAKE_PREFIX_PATH="
\endcode
Where \c could be e.g. \c C:/development/Qt5/5.12.0/msvc2017_64 . This call results in a Visual Studio solution \c build/JKQTPlotter.sln that you can load and compile from the Visual Studio IDE. Alternatively you can also build the solution directly calling:
\code{.sh}
$ cmake --build . --config "Debug"
\endcode
Afterwards you can install the library by
\code{.sh}
$ cmake --build . --config "Debug" --target install
\endcode
\subsection page_buildinstructions_CMAKE_CONFIG Configuring a Build with CMake
The CMake build system offers several configuration variables that you may set/change to modify the outcome of the build:
- \c CMAKE_PREFIX_PATH : add the path to your Qt installatrion to this variable, so the \c find_package(Qt5...) commands find the libraries you want to use
- \c JKQtPlotter_BUILD_SHARED_LIBS : Build as shared library (default: \c ON )
- \c JKQtPlotter_BUILD_STATIC_LIBS : Build as static library (default: \c ON )
- \c JKQtPlotter_BUILD_INCLUDE_XITS_FONTS : Include XITS fonts as resources in library (default: \c ON )
- \c JKQtPlotter_BUILD_DECORATE_LIBNAMES_WITH_BUILDTYPE : If set, the build-type is appended to the library name (default: \c ON )
- \c JKQtPlotter_BUILD_EXAMPLES : Build examples (default: \c ON )
- \c CMAKE_INSTALL_PREFIX : Install directory for the library
.
\subsection page_buildinstructions_CMAKE_USAGE Using a built, generated with CMake
After building and installing JKQTPlotter you have all files that you need inside the instal directory:
- \c /include contains all required header files
- \c /bin contains the shared libraries
- \c /lib contains the link libraries
- \c /lib/cmake contains files necessary for CMake's \c find_package() to work
.
You can find an example project that uses a complete cmake-build here: \ref JKQTCMakeLinkExample (online: https://github.com/jkriege2/JKQtPlotter/blob/master/examples/cmake_link_example).
Here is the \c CMakeLists.txt from that directory:
\code
# set minimum required CMake-Version
cmake_minimum_required(VERSION 3.10)
# set Project name
set(EXAMPLE_NAME simpletest)
set(EXENAME jkqtptest_${EXAMPLE_NAME})
project(${EXAMPLE_NAME} LANGUAGES CXX)
# some basic configurations
set(CMAKE_AUTOMOC ON)
set(CMAKE_INCLUDE_CURRENT_DIR ON)
set(CMAKE_CXX_STANDARD 11)
#set(CMAKE_WINDOWS_EXPORT_ALL_SYMBOLS ON)
# Configure project for usage of Qt5
find_package(Qt5 COMPONENTS Core Gui Widgets PrintSupport Svg Xml OpenGl REQUIRED)
# Configure project for usage of Qt6
#find_package(Qt6 COMPONENTS Core Gui Widgets PrintSupport Svg Xml OpenGl OpenGLWidgets REQUIRED)
# include JKQTPlotter
find_package(JKQTCommonLib REQUIRED)
find_package(JKQTMathTextLib REQUIRED)
find_package(JKQTPlotterLib REQUIRED)
# For Visual Studio, we need to set some additional compiler options
if(MSVC)
add_compile_options(/EHsc)
# To enable M_PI, M_E,...
add_definitions(/D_USE_MATH_DEFINES)
# To Prevent Errors with min() and max()
add_definitions(/DNOMINMAX)
# To fix error: C2338: va_start argument must not
# have reference type and must not be parenthesized
add_definitions(/D_CRT_NO_VA_START_VALIDATION)
endif()
# add the example executable
add_executable(${EXENAME} WIN32 simpletest.cpp)
# ... link against Qt5 and JKQTPlotterLib
# (you could use JKQTPlotterSharedLib if you don't want to link againast the
# static version, but against the shared/DLL version).
target_link_libraries(${EXENAME} Qt5::Core Qt5::Widgets Qt5::Gui Qt5::PrintSupport Qt5::Svg Qt5::Xml JKQTPlotterLib)
# Installation
install(TARGETS ${EXENAME} RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR})
\endcode
To build this example, you first need to make a subdirectory `build` and then call CMake form that subdirectory:
\code.sh
$ mkdir build
$ cd build
$ cmake .. -G "" "-DCMAKE_PREFIX_PATH= -DCMAKE_MODULE_PATH="
\endcode
The you can use the generated makefiles (e.g. load them in an editor, or build them jsing \c make ). In the last line above, you need to specify two directories:
- \c points to you Qt installation
- \c points to the directory containing the \c XYZ.cmake -files from the JKQTPlotter build. Typically this is \c /lib/cmake , where \c is the directory into which you installed JKQTPlotter.
.
\section page_buildinstructions_QMAKE Build using QMake
\subsection page_buildinstructions_QMAKEINCLUDE QMake Include Project
If you want to simply include the JKQTPlotter Source code into your projects, without build a shared or static library and linking against it, you can use one of these QMake-Include files:
- lib/jkqtplotter.pri includes the complete library (JKQTPlotter, JKQTFastPlotter, JKQTMathText)
- lib/jkqtmathtext.pri includes only JKQTMathText
- lib/jkqtfastplotter.pri includes only JKQTFastPlotter
.
In your QMake-projects it is then sufficient to add a line like:
\code{.qmake}
include(/lib/jkqtplotter.pri)
\endcode
\subsection page_buildinstructions_QMAKESTATIC QMake Static Library
There are several `.PRO`-files, that can be used to build the full library, or a limited subsets of it as static link library:
- qmake/staticlib/jkqtplotterlib/jkqtplotterlib.pro builds the complete library (JKQTPlotter, JKQTFastPlotter, JKQTMathText) as static link library
- qmake/staticlib/jkqtmathtextlib/jkqtmathtextlib.pro builds only JKQTMathText as static link library
- qmake/staticlib/jkqtfastplotterlib/jkqtfastplotterlib.pro builds only JKQTFastPlotter as static link library
.
They will produce a static link library that you can include into your projects, e.g. with the following QMake-snippet:
\code{.qmake}
# include JKQTPlotter library
DEPENDPATH += \
/lib \
/qmake/staticlib/jkqtplotterlib
INCLUDEPATH += /lib
CONFIG (debug, debug|release) {
DEPENDPATH += /qmake/staticlib/jkqtplotterlib/debug
LIBS += -L/qmake/staticlib/jkqtplotterlib/debug -ljkqtplotterlib_debug
} else {
DEPENDPATH += /qmake/staticlib/jkqtplotterlib/release
LIBS += -L/qmake/staticlib/jkqtplotterlib/release -ljkqtplotterlib
}
\endcode
This snippet assumes that you built the libraries with the provided `.PRO`-files. You can also add a second `.pro`-file to your projects, which integrates both as subdirs. Such files are used for all examples in this project. Here is an example:
\code{.qmake}
TEMPLATE = subdirs
# the (static library version) of JKQTPlotter
jkqtplotterlib_static.file = ../../qmake/staticlib/jkqtplotterlib/jkqtplotterlib.pro
# your project file, with declared dependencies on jkqtplotterlib_static
test_styling.file=$$PWD/test_styling.pro
test_styling.depends = jkqtplotterlib_static
# add the two entries to SUBDIRS
SUBDIRS += jkqtplotterlib_static test_styling
\endcode
\subsection page_buildinstructions_QMAKEDYNAMIC QMake Dynamic Library
There are several `.PRO`-files, that can be used to build the full library, or a limited subsets of it as shred library:
- qmake/sharedlib/jkqtplotterlib/jkqtplotterlib.pro builds the complete library (JKQTPlotter, JKQTFastPlotter, JKQTMathText) as shared library
- qmake/sharedlib/jkqtmathtextlib/jkqtmathtextlib.pro builds only JKQTMathText as shared library
- qmake/sharedlib/jkqtfastplotterlib/jkqtfastplotterlib.pro builds only JKQTFastPlotter as shared library
.
They will produce a dynamic link library that you can include into your projects, e.g. with the following QMake-snippet:
\code{.qmake}
# include JKQTPlotter library
DEPENDPATH += \
/lib \
/qmake/sharedlib/jkqtplotterlib
INCLUDEPATH += /lib
DEFINES += JKQTCOMMON_LIB_IN_DLL JKQTFASTPLOTTER_LIB_IN_DLL JKQTMATHTEXT_LIB_IN_DLL JKQTPLOTTER_LIB_IN_DLL
CONFIG (debug, debug|release) {
# ensure that DLLs are copied to the output directory
install_jkqtplotter_dll.files = /qmake/sharedlib/jkqtplotterlib/debug/jkqtplotterlib_debug.*
install_jkqtplotter_dll.path = $$OUT_PWD
INSTALLS += install_jkqtplotter_dll
# link agains DLLs
DEPENDPATH += /qmake/sharedlib/jkqtplotterlib/debug
LIBS += -L/qmake/sharedlib/jkqtplotterlib/debug -ljkqtplotterlib_debug
} else {
# ensure that DLLs are copied to the output directory
install_jkqtplotter_dll.files = /qmake/sharedlib/jkqtplotterlib/release/jkqtplotterlib.*
install_jkqtplotter_dll.path = $$OUT_PWD
INSTALLS += install_jkqtplotter_dll
# link agains DLLs
DEPENDPATH += /qmake/sharedlib/jkqtplotterlib/release
LIBS += -L/qmake/sharedlib/jkqtplotterlib/release -ljkqtplotterlib
}
\endcode
This snippet assumes that you built the libraries with the provided `.PRO`-files. You can also add a second `.pro`-file to your projects, which integrates both as subdirs. Such files are used for all examples in this project. Here is an example:
\code{.qmake}
TEMPLATE = subdirs
# the (shared library version) of JKQTPlotter
jkqtplotterlib_shared.file = ../../qmake/sharedlib/jkqtplotterlib.pro
# your project file, with declared dependencies on jkqtplotterlib_shared
test_styling.file=$$PWD/test_styling.pro
test_styling.depends = jkqtplotterlib_shared
# add the two entries to SUBDIRS
SUBDIRS += jkqtplotterlib_shared test_styling
\endcode
\note You will have to run a deployment step `make install` before running your executable, so the shared libararies are actually copied to the output directory (see `INSTALLS + ...` above).
*/