\page netCDF-CMake Build Instructions for netCDF-C using CMake [TOC] # Overview {#cmake_overview} Starting with netCDF-C 4.3.0, we are happy to announce the inclusion of CMake support. CMake will allow for building netCDF on a wider range of platforms, include Microsoft Windows with Visual Studio. CMake support also provides robust unit and regression testing tools. We will also maintain the standard autotools-based build system in parallel. In addition to providing new build options for netCDF-C, we will also provide pre-built binary downloads for the shared versions of netCDF for use with Visual Studio. # Requirements {#cmake_requirements} The following packages are required to build netCDF-C using CMake. * netCDF-C Source Code * CMake version 2.8.9 or greater. * Optional Requirements: * HDF5 Libraries for netCDF4/HDF5 support. * libcurl for DAP support.
# The CMake Build Process {#cmake_build} There are four steps in the Build Process when using CMake 1. Configuration: Before compiling, the software is configured based on the desired options. 2. Building: Once configuration is complete, the libraries are compiled. 3. Testing: Post-build, it is possible to run tests to ensure the functionality of the netCDF-C libraries. 4. Installation: If all tests pass, the libraries can be installed in the location specified during configuration. For users who prefer pre-built binaries, installation packages are available at \ref winbin ## Configuration {#cmake_configuration} The output of the configuration step is a project file based on the appropriate configurator specified. Common configurators include: * Unix Makefiles * Visual Studio * CodeBlocks * ... and others ### Common CMake Options {#cmake_common_options} | **Option** | **Autotools** | **CMake** | | :------- | :---- | :----- | Specify Install Location | --prefix=PREFIX | -D"CMAKE\_INSTALL\_PREFIX=PREFIX" Enable/Disable netCDF-4 | --enable-netcdf-4
--disable-netcdf-4 | -D"ENABLE\_NETCDF\_4=ON"
-D"ENABLE\_NETCDF\_4=OFF" Enable/Disable DAP | --enable-dap
--disable-dap | -D"ENABLE\_DAP=ON"
-D"ENABLE\_DAP=OFF" Enable/Disable Utilities | --enable-utilities
--disable-utilities | -D"BUILD\_UTILITIES=ON"
-D"BUILD\_UTILITIES=OFF" Specify shared/Static Libraries | --enable-shared
--enable-static | -D"BUILD\_SHARED\_LIBS=ON"
-D"BUILD\_SHARED\_LIBS=OFF" Enable/Disable Tests | --enable-testsets
--disable-testsets | -D"ENABLE\_TESTS=ON"
-D"ENABLE\_TESTS=OFF" Specify a custom library location | Use *CFLAGS* and *LDFLAGS* | -D"CMAKE\_PREFIX\_PATH=/usr/custom_libs/" A full list of *basic* options can be found by invoking `cmake [Source Directory] -L`. To enable a list of *basic* and *advanced* options, one would invoke `cmake [Source Directory] -LA`. ### Configuring your build from the command line. {#cmake_command_line} The easiest configuration case would be one in which all of the dependent libraries are installed on the system path (in either Unix/Linux or Windows) and all the default options are desired. From the build directory (often, but not required to be located within the source directory): > $ cmake [Source Directory] If you have libraries installed in a custom directory, you may need to specify the **CMAKE\_PREFIX_PATH** variable to tell cmake where the libraries are installed. For example: > $ cmake [Source Directory] -DCMAKE\_PREFIX\_PATH=/usr/custom_libraries/ ## Building {#cmake_building} The compiler can be executed directly with 'make' or the appropriate command for the configurator which was used. > $ make Building can also be executed indirectly via cmake: > $ cmake --build [Build Directory] ## Testing {#cmake_testing} Testing can be executed several different ways: > $ make test or > $ ctest or > $ cmake --build [Build Directory] --target test ## Installation {#cmake_installation} Once netCDF has been built and tested, it may be installed using the following commands: > $ make install or > $ cmake --build [Build Directory] --target install # See Also {#cmake_see_also} For further information regarding NetCDF and CMake, see \ref cmake_faq