This document describes how to build GMT from source codes (stable release or development version) on Linux, FreeBSD, macOS and Windows.
- Build and runtime dependencies
- Getting GMT source codes
- Configuring
- Building GMT source codes
- Installing
- Setting path
- Advanced instructions
GMT is dependent on some software and libraries to run. Please refer to the GMT wiki page for instructions to install these dependencies on various operation systems.
To build GMT, you have to install:
- CMake (>=2.8.12)
- netCDF (>=4.0, netCDF-4/HDF5 support mandatory)
- curl
- GDAL (Ability to read and write numerous grid and image formats)
Optionally install these for more capabilities within GMT:
- Ghostscript (Ability to convert PostScript plots to PDF and rasters)
- GEOS (Ability to buffer lines and polygons)
- PCRE or PCRE2 (Regular expression support)
- FFTW single-precision (Fast FFTs, >=3.3 [not needed under macOS])
- GLib GTHREAD support (>=2.32)
- LAPACK (Fast matrix inversion [not needed under macOS])
- BLAS (Fast matrix multiplications [not needed under macOS])
For movie-making capabilities these executables are needed:
- GraphicsMagick (Convert images to animated GIFs)
- FFmpeg (Convert images to videos)
For viewing documentation under Linux via gmt docs
, your need xdg-open
:
- xdg-open (Unified open for a variety of files)
Install for building GMT documentation and running tests (not required for general use):
- Sphinx (>=1.8, for building the documentation)
- GraphicsMagick (for running the tests)
- dvc (for running the tests and building the documentation)
- Ninja (optional, build system focused on speed)
- pngquant (optional, for optimizing PNG images in the documentation)
You also need to download support data:
- GSHHG: A Global Self-consistent, Hierarchical, High-resolution Geography Database (>=2.2.0)
- DCW: The Digital Chart of the World (optional, >=2.0.0)
The latest stable release of the GMT source codes (filename: gmt-x.x.x-src.tar.gz) are available from GMT repository on GitHub.
If you want to build/use the latest developing/unstable GMT, you can get the source codes by cloning the
GMT repository on GitHub. Here we use --depth 50
option for a shallow
clone which can reduce the repository size to download.
git clone --depth 50 https://github.com/GenericMappingTools/gmt
You can also get supporting data GSHHG and DCW (filename: gshhg-gmt-x.x.x.tar.gz and dcw-gmt-x.x.x.tar.gz) from the GMT main site.
Extract the files and put them in a separate directory (need not be where you eventually want to install GMT).
Note for developers: Refer to the git workflow tutorial for more detailed instructions on cloning and forking the repository. It is recommended that you use a full clone rather than a shallow clone.
GMT can be built on any platform supported by CMake. CMake is a cross-platform,
open-source system for managing the build process. The building process is
controlled by three configuration files in the cmake
directory:
ConfigDefault.cmake
is version controlled and used to add new default variables and set defaults for everyone. You should NOT edit this file.ConfigUser.cmake
is not version controlled and is used to override basic default settings on a per-user basis.ConfigUserAdvanced.cmake
is not version controlled and is used to override more advanced default settings on a per-user basis.
GMT provides two template files, ConfigUserTemplate.cmake
and ConfigUserAdvancedTemplate.cmake
in the cmake
directory. In that directory, you may copy ConfigUserTemplate.cmake
to ConfigUser.cmake
and edit to change basic
installation parameters. For more advanced parameters, you may copy ConfigUserAdvancedTemplate.cmake
to
ConfigUserAdvanced.cmake
and edit.
Note for developers: It is necessary to create both
ConfigUser.cmake
andConfigUserAdvanced.cmake
in thecmake
directory using the templates provided in order to enable testing. Refer to the section setting up your environment in the contributing guide for instructions on setting upcmake/ConfigUserAdvanced.cmake
.
Here is an example of settings you may want to change after copying cmake/ConfigUserTemplate.cmake
to
cmake/ConfigUser.cmake
.
set (CMAKE_INSTALL_PREFIX "/opt/gmt")
set (GSHHG_ROOT "/path/to/gshhg")
set (DCW_ROOT "/path/to/dcw")
For Windows users, a good example is:
set (CMAKE_INSTALL_PREFIX "C:/programs/gmt6")
set (GSHHG_ROOT "C:/path/to/gshhg")
set (DCW_ROOT "C:/path/to/dcw")
See the additional comments in cmake/ConfigUserTemplate.cmake
for more details.
Now that you made your configuration choices, it is time for invoking CMake. To keep generated files separate from source files in the source tree, you should create a build directory in the top-level directory, where the build files will be generated, and change into your build directory:
mkdir build
cd build
cmake ..
For Windows users, you need to open a command prompt and run:
NOTE: Commands below are valid only if you have GMT's dependency libraries installed via vcpkg following these instructions.
mkdir build
cd build
# For x64 build
cmake .. -DCMAKE_TOOLCHAIN_FILE=C:\vcpkg\scripts\buildsystems\vcpkg.cmake -DCMAKE_GENERATOR_PLATFORM=x64
# For x86 build
cmake .. -DCMAKE_TOOLCHAIN_FILE=C:\vcpkg\scripts\buildsystems\vcpkg.cmake -DCMAKE_GENERATOR_PLATFORM=x86
For advanced users, you can append the option -G Ninja
to use the
build tool Ninja, which is a small build system
with a focus on speed.
In the build directory, type
# Linux/macOS/FreeBSD
cmake --build .
# Windows
cmake --build . --config Release
which will compile all the programs. You can also append --parallel [jobs]
to enable parallel build, in which
jobs
is the maximum number of concurrent processes to use when building. If jobs
is omitted the native build
tool's default number is used.
Note: These instructions build the source code for GMT. Optionally, follow the instructions for building the documentation in the contributing guide to build the documentation (for example, to develop the documentation or to use
gmt docs
without the GMT server).
Note for developers: Refer to the file
admin/bashrc_for_gmt
for useful aliases for configuring and building GMT.
# Linux/macOS/FreeBSD
cmake --build . --target install
# Windows
cmake --build . --target install --config Release
will install gmt executable, library, development headers and built-in data to the specified GMT install location. Optionally it will also install the GSHHG shorelines (if found), DCW (if found), UNIX manpages, and HTML documentations.
Depending on where GMT is being installed, you might need
write permission for this step so you can copy files to system directories.
Using sudo
will often do the trick.
Note for developers: Refer to the section Updating the development source codes in the contributing guide for instructions on how to update the development version of GMT. Also refer to the file
admin/bashrc_for_gmt
for useful aliases for updating the development source code.
Make sure you set the PATH
to include the directory containing the GMT executables
if this is not a standard directory like /usr/local/bin
.
For Linux/macOS users, open your SHELL configuration file (usually ~/.bashrc
)
and add the line below to it.
export PATH=${PATH}:/path/to/gmt/bin
Then, you should now be able to run GMT programs.
For advanced users who are interested in building documentation, running tests, or contributing more to GMT, please refer the contributing guide.