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498 lines
19 KiB
Markdown
498 lines
19 KiB
Markdown
Getting and Building netCDF {#getting_and_building_netcdf}
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=============================
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[TOC]
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This document is for getting and building the netCDF C library and
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utilities, version 4.3.0. Other libraries that depend on the netCDF C
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library, such as the Fortran and C++ libraries, are available as
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separate distributions that can be built and installed after the C
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library is successfully installed. The netCDF-Java library is also a
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separate distribution that is currently independent of the netCDF C
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library.
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Getting netCDF-C {#getting}
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=========================
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* For information regarding the netCDF-Fortran libraries, see \subpage building_netcdf_fortran.
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Getting pre-built netCDF-C libraries. {#sec_get_pre_built}
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-------------------------------------
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The easiest way to get netCDF is through a package management program,
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such as rpm, yum, adept, and others. NetCDF is available from many
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different repositories, including the default Red Hat and Ubuntu
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repositories.
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When getting netCDF from a software repository, you will wish to get
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the development version of the package ("netcdf-devel"). This includes
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the netcdf.h header file.
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Pre-release libraries for Windows may be found here: \ref winbin.
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Getting the latest netCDF-C Source Code {#sec_get_source}
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----------------------------------------
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Starting with netCDF-C version 4.3.1, the netCDF-C source code is hosted at the
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Unidata GitHub repository, available at http://github.com/Unidata/netcdf-c.
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Two options are available for building from source:
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- The latest release.
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- The developer snapshot.
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### The latest release {#sec_latest_release}
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The latest release may be downloaded from github at the following location:
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- http://github.com/Unidata/netcdf-c/releases
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Source files are available in `.tar.gz` and `.zip` formats.
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### The developer snapshot {#sec_dev_snapshot}
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The developer snapshot may be cloned from github directly by using the `git` command.
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> $ git clone http://github.com/Unidata/netcdf-c netcdf-c
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**Note:**
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> ***The developer snapshot release contains bug-fixes and new
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features added since the last full release. It may also contain
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portability bugs.***
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Once you have downloaded and unpacked the distribution, see the
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following section on \ref building.
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Building netCDF-C {#building}
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===========================
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The netCDF-C library and utilities require third-party libraries for
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full functionality. (See \ref architecture).
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- \ref build_default
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- \ref build_classic
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- \ref build_hdf4
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- \ref build_parallel
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- \ref building_netcdf_fortran
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- \ref configure_options
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Requirements {#netcdf_requirements}
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----------------------------------
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* HDF5 1.8.9 (netcdf-4 support)
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* zlib 1.2.5
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* curl 7.18.0 (DAP support)
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CMake and Windows support {#sub}
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--------------------------------
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- \ref netCDF-CMake
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- \subpage winbin
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Building with netCDF-4 and the Remote Data Client {#build_default}
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--------------------------------
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The usual way of building netCDF requires the HDF5, zlib, and curl
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libraries. (And, optionally, the szlib library). Versions required are
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at least HDF5 1.8.9, zlib 1.2.5, and curl 7.18.0 or later.
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(Optionally, if building with szlib, get szip 2.0 or later.)
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HDF5 1.8.9 and zlib 1.2.7 packages are available from the <a
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href="ftp://ftp.unidata.ucar.edu/pub/netcdf/netcdf-4">netCDF-4 ftp
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site</a>. If you wish to use the remote data client code, then you
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will also need libcurl, which can be obtained from the <a
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href="http://curl.haxx.se/download.html">curl website</a>.
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Make sure you run ``make check'' for the HDF5 and zlib
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distributions. They are very well-behaved distributions, but sometimes
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the build doesn't work (perhaps because of something subtly
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misconfigured on the target machine). If one of these libraries is not
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working, netCDF will have serious problems.
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Note that for building netCDF, it is not necessary to build the HDF5
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Fortran, C++, or Java API's. Only the HDF5 C library is used.
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Optionally, you can also build netCDF-4 with the szip library
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(a.k.a. szlib). NetCDF cannot create szipped data files, but can read
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HDF5 data files that have used szip.
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8
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There are license restrictions on the use of szip, see the section on
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licensing terms in the <a
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href="http://www.hdfgroup.org/doc_resource/SZIP/">web page on szip
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compression in HDF products</a>. These license restrictions seem to
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apply to commercial users who are writing data. (Data readers are not
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restricted.) But here at NetCDF World Headquarters, in Sunny Boulder,
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Colorado, there are no lawyers, only programmers, so please read the
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szip documents for the license agreement to see how it applies to your
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situation.
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If ``make check'' fails for either zlib or HDF5, the problem must be
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resolved before the netCDF-4 installation can continue. For HDF5
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problems, see the <a
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href="http://www.hdfgroup.org/services/support.html">HDF5 help
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services</a>.
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Build zlib like this:
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~~~
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$ ./configure --prefix=/home/username/local
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$ make check install
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~~~
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Then you build HDF5, specifying the location of the zlib library:
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~~~
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$ ./configure --with-zlib=/home/username/local --prefix=/home/username/local
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$ make check install
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~~~
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In all cases, the installation location specified with the <CODE>--prefix</CODE>
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option must be different from the source directory where the software
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is being built.
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Note that for shared libraries, you may need to add the install
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directory to the LD_LIBRARY_PATH environment variable. See
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the <a href="http://www.unidata.ucar.edu/netcdf/docs/faq.html#Shared%20Libraries">netCDF
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FAQ</a> for more details on using shared libraries.
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If you are building HDF5 with szip, then include the <CODE>--with-szlib=</CODE>
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option, with the directory holding the szip library.
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After HDF5 is done, build netcdf, specifying the location of the
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HDF5, zlib, and (if built into HDF5) the szip header files and
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libraries in the CPPFLAGS and LDFLAGS environment variables. For example:
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~~~
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$ CPPFLAGS=-I/home/username/local/include LDFLAGS=-L/home/username/local/lib ./configure --prefix=/home/username/local
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$ make check install
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~~~
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The configure script will try to find necessary tools in your
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path. When you run configure you may optionally use the <CODE>--prefix</CODE>
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argument to change the default installation directory. The above
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examples install the zlib, HDF5, and netCDF-4 libraries in
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/home/username/local/lib, the header file in /home/username/local/include, and the
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utilities in /home/username/local/bin. If you don't provide a <CODE>--prefix</CODE>
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option, installation will be in /usr/local/, in subdirectories lib/,
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include/, and bin/. The installation location specified with the
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<CODE>--prefix</CODE> option must be different from the source directory where the
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software is being built.
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Building netCDF with Classic Library Only {#build_classic}
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---------------------------------------
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It is possible to build the netCDF C libraries and utilities so that
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only the netCDF classic and 64-bit offset formats are supported, or
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the remote data access client is not built. (See \ref netcdf_format)
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for more information about the netCDF format variants. See the <a
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href="http://opendap.org/netCDF-DAP">netCDF-DAP site</a>
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for more information about remote client access to data
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on OPeNDAP servers.)
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To build without support for the netCDF-4 formats or the additional
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netCDF-4 functions, but with remote access, use:
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~~~
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$ ./configure --prefix=/home/username/local --disable-netcdf-4
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$ make check install
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~~~
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(Replace `/home/username/local` with the name of the directory where
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netCDF is to be installed. The installation location specified with
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the <CODE>--prefix</CODE> option must be different from the source directory where
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the software is being built.)
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Starting with version 4.1.1 the netCDF C libraries and utilities have
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supported remote data access, using the OPeNDAP protocols. To build
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with full support for netCDF-4 APIs and format but without remote
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client access, use:
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~~~
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$ ./configure --prefix=/home/username/local --disable-dap
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$ make check install
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~~~
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To build without netCDF-4 support or remote client access, use:
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~~~
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$ ./configure --prefix=/home/username/local --disable-netcdf-4 --disable-dap
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$ make check install
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~~~
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If you get the message that netCDF installed correctly, then you are
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done!
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Building with HDF4 Support {#build_hdf4}
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---------------------
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The netCDF-4 library can (since version 4.1) read HDF4 data files, if
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they were created with the SD (Scientific Data) API.
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For this to work, you must build the HDF4 library with the
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configure option
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~~~
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--disable-netcdf
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~~~
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to prevent it from building an HDF4 version of the netCDF-2 library
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that conflicts with the netCDF-2 functions that are built into the Unidata
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netCDF library.
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Then, when building netCDF-4, use the
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~~~
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--enable-hdf4
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~~~
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option to configure. The location for the HDF4 header files and
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library must be set in the CPPFLAGS and LDFLAGS options.
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For HDF4 access to work, the library must be build with netCDF-4
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features.
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Here's an example, assuming the HDF5 library has been built and
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installed in H5DIR and you will build and install the HDF4 library in
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H4DIR (which could be the same as H5DIR):
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~~~
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# Build and install HDF4
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$ cd ${HDF4_SOURCE_DIRECTORY}
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$ ./configure --enable-shared --disable-netcdf --disable-fortran --prefix=${H4DIR}
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$ make
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$ make install
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$ # Build and install netCDF with HDF4 access enabled
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$ cd ${NETCDF_SOURCE_DIRECTORY}
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$ CPPFLAGS="-I${H5DIR}/include -I${H4DIR}/include" \
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$ LDFLAGS="-L${H5DIR}/lib -L${H4DIR}/lib" \
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$ ./configure --enable-hdf4 --enable-hdf4-file-tests
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$ make check
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$ make install
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~~~
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Building with Parallel I/O Support {#build_parallel}
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--------------
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For parallel I/O to work, HDF5 must be installed with
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–enable-parallel, and an MPI library (and related libraries) must be
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made available to the HDF5 configure. This can be accomplished with
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the mpicc wrapper script, in the case of MPICH2.
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The following works to build HDF5 with parallel I/O on our netCDF
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testing system:
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~~~
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CC=mpicc ./configure --enable-parallel
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make check install
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~~~
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If the HDF5 used by netCDF has been built with parallel I/O, then
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netCDF will also be built with support for parallel I/O. This allows
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parallel I/O access to netCDF-4/HDF5 files. Note that shared libraries
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are not supported for parallel HDF5, which makes linking more
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difficult to get right. "LIBS=-ldl" is also sometimes needed to link
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successfully with parallel HDF5 libraries.
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(See /ref netcdf_formats for more information about the netCDF format
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variants.)
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The following works to build netCDF-4 with parallel I/O on our netCDF
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testing system:
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~~~
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$ H5DIR=/where/parallel/HDF5/was/installed
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$ CPPFLAGS="-I${H5DIR}/include"
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$ CC=mpicc
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$ LDFLAGS=-L${H5DIR}/lib
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$ LIBS=-ldl
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$ ./configure --disable-shared --enable-parallel-tests
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$ make check install
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~~~
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If parallel I/O access to netCDF classic and 64-bit offset files is
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also needed, the parallel-netcdf library should also be installed.
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(Note: the previously recommended <a
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href=ftp://ftp.unidata.ucar.edu/pub/netcdf/contrib/pnetcdf.h>replacement
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pnetcdf.h</a> should no longer be used.) Then configure netCDF with the
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"--enable-pnetcdf" option.
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Linking to netCDF-C {#linking}
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-------------------
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For static build, to use netCDF-4 you must link to all the libraries,
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netCDF, HDF5, zlib, szip (if used with HDF5 build), and curl (if the
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remote access client has not been disabled). This will mean -L options
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to your build for the locations of the libraries, and -l (lower-case
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L) for the names of the libraries.
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For example, one user reports that she can build other applications
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with netCDF-4 by setting the LIBS environment variable:
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~~~
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LIBS='-L/X/netcdf-4.0/lib -lnetcdf -L/X/hdf5-1.8.9/lib -lhdf5_hl -lhdf5 -lz -lm -L/X/szip-2.1/lib -lsz'
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~~~
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For shared builds, only -lnetcdf is needed. All other libraries will
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be found automatically.
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The ``nc-config --all'' command can be used to learn what options are
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needed for the local netCDF installation.
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For example, this works for linking an application named myapp.c with
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netCDF-4 libraries:
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~~~
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cc -o myapp myapp.c `nc-config --cflags --libs`
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~~~
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configure options {#configure_options}
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-----------------------------
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These options are used for `autotools`-based builds. For `cmake` options, see
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Note: --disable prefix indicates that the option is normally enabled.
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<table>
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<tr><th>Option<th>Description<th>Dependencies
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<tr><td>--disable-doxygen<td>Disable generation of documentation.<td>doxygen
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<tr><td>--disable-fsync<td>disable fsync support<td>kernel fsync support
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<tr><td>--enable-valgrind-tests <td>build with valgrind-tests; static builds only<td>valgrind
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<tr><td>--enable-netcdf-4<td>build with netcdf-4<td>HDF5 and zlib
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<tr><td>--enable-netcdf4<td>synonym for enable-netcdf-4
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<tr><td>--enable-hdf4<td>build netcdf-4 with HDF4 read capability<td>HDF4, HDF5 and zlib
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<tr><td>--enable-hdf4-file-tests<td>test ability to read HDF4 files<td>selected HDF4 files from Unidata ftp site
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<tr><td>--enable-pnetcdf<td>build netcdf-4 with parallel I/O for classic and
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64-bit offset files using parallel-netcdf
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<tr><td>--enable-extra-example-tests<td>Run extra example tests<td>--enable-netcdf-4,GNU sed
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<tr><td>--enable-parallel-tests <td>run extra parallel IO tests<td>--enable-netcdf-4, parallel IO support
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<tr><td>--enable-logging<td>enable logging capability<td>--enable-netcdf-4
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<tr><td>--disable-dap<td>build without DAP client support.<td>libcurl
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<tr><td>--disable-dap-remote-tests<td>disable dap remote tests<td>--enable-dap
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<tr><td>--enable-dap-long-tests<td>enable dap long tests<td>
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<tr><td>--enable-extra-tests<td>run some extra tests that may not pass because of known issues<td>
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<tr><td>--enable-ffio<td>use ffio instead of posixio (ex. on the Cray)<td>
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<tr><td>--disable-examples<td>don't build the netCDF examples during make check
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(examples are treated as extra tests by netCDF)<td>
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<tr><td>--disable-v2<td>turn off the netCDF version 2 API<td>
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<tr><td>--disable-utilities<td>don't build netCDF utilities ncgen, ncdump, and nccopy<td>
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<tr><td>--disable-testsets<td>don't build or run netCDF tests<td>
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<tr><td>--enable-large-file-tests <td>Run tests which create very large data
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files<td>~13 GB disk space required, but recovered when
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tests are complete). See option --with-temp-large to
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specify temporary directory<td>
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<tr><td>--enable-benchmarks<td>Run benchmarks. This is an experimental feature.
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The benchmarks are a
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bunch of extra tests, which are timed. We use these
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tests to check netCDF performance.
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<td>sample data files from the Unidata ftp site
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<tr><td>--disable-extreme-numbers
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<td>don't use extreme numbers during testing, such as MAX_INT - 1<td>
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<tr><td>--enable-dll<td>build a win32 DLL<td>mingw compiler
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<tr><td>--disable-shared<td>build shared libraries<td>
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<tr><td>--disable-static<td>build static libraries<td>
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<tr><td>--disable-largefile<td>omit support for large files<td>
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<tr><td>--enable-mmap<td>Use mmap to implement NC_DISKLESS<td>
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</table>
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Build Instructions for netCDF-C using CMake {#netCDF-CMake}
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===========================================
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## Overview {#cmake_overview}
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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.
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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.
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## Requirements {#cmake_requirements}
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The following packages are required to build netCDF-C using CMake.
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* netCDF-C Source Code
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* CMake version 2.8.12 or greater.
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* Optional Requirements:
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* HDF5 Libraries for netCDF4/HDF5 support.
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* libcurl for DAP support.
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<center>
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<img src="deptree.jpg" height="250px" />
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</center>
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## The CMake Build Process {#cmake_build}
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There are four steps in the Build Process when using CMake
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1. Configuration: Before compiling, the software is configured based on the desired options.
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2. Building: Once configuration is complete, the libraries are compiled.
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3. Testing: Post-build, it is possible to run tests to ensure the functionality of the netCDF-C libraries.
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4. Installation: If all tests pass, the libraries can be installed in the location specified during configuration.
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For users who prefer pre-built binaries, installation packages are available at \ref winbin
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### Configuration {#cmake_configuration}
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The output of the configuration step is a project file based on the appropriate configurator specified. Common configurators include:
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* Unix Makefiles
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* Visual Studio
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* CodeBlocks
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* ... and others
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### Common CMake Options {#cmake_common_options}
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| **Option** | **Autotools** | **CMake** |
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| :------- | :---- | :----- |
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Specify Install Location | --prefix=PREFIX | -D"CMAKE\_INSTALL\_PREFIX=PREFIX"
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Enable/Disable netCDF-4 | --enable-netcdf-4<br>--disable-netcdf-4 | -D"ENABLE\_NETCDF\_4=ON" <br> -D"ENABLE\_NETCDF\_4=OFF"
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Enable/Disable DAP | --enable-dap <br> --disable-dap | -D"ENABLE\_DAP=ON" <br> -D"ENABLE\_DAP=OFF"
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Enable/Disable Utilities | --enable-utilities <br> --disable-utilities | -D"BUILD\_UTILITIES=ON" <br> -D"BUILD\_UTILITIES=OFF"
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Specify shared/Static Libraries | --enable-shared <br> --enable-static | -D"BUILD\_SHARED\_LIBS=ON" <br> -D"BUILD\_SHARED\_LIBS=OFF"
|
||
Enable/Disable Tests | --enable-testsets <br> --disable-testsets | -D"ENABLE\_TESTS=ON" <br> -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
|