• Goals and Motivation
• Scope
• Getting started
  • Get the code
  • Requirements
  • Supported compilers
  • Build with CMake
  • Build with make
• Using stdlib in your project
• Documentation
• Contributing
• Links

The Fortran Standard, as published by the ISO (https://wg5-fortran.org/), does not have a Standard Library. The goal of this project is to provide a community driven and agreed upon de facto "standard" library for Fortran, called a Fortran Standard Library (stdlib). We have a rigorous process how stdlib is developed as documented in our Workflow. stdlib is both a specification and a reference implementation. We are cooperating with the Fortran Standards Committee (e.g., the effort started at the J3 committee repository) and the plan is to continue working with the Committee in the future (such as in the step 5. in the Workflow document), so that if the Committee wants to standardize some feature already available in stdlib, it would base it on stdlib's implementation.

The goal of the Fortran Standard Library is to achieve the following general scope:

• Utilities (containers, strings, files, OS/environment integration, unit testing & assertions, logging, ...)
• Algorithms (searching and sorting, merging, ...)
• Mathematics (linear algebra, sparse matrices, special functions, fast Fourier transform, random numbers, statistics, ordinary differential equations, numerical integration, optimization, ...)

git clone https://github.com/fortran-lang/stdlib
cd stdlib

To build the Fortran standard library you need

• a Fortran 2008 compliant compiler, or better, a Fortran 2018 compliant compiler (GCC Fortran and Intel Fortran compilers are known to work for stdlib)
• CMake version 3.14 or newer (alternatively Make can be used)
• a build backend for CMake, like Make or Ninja (the latter is recommended on Windows)
• the fypp preprocessor (used as meta-programming tool)

If your system package manager does not provide the required build tools, all build dependencies can be installed with the Python command line installer pip:

pip install --user fypp cmake ninja

Alternatively, you can install the build tools from the conda-forge channel with the conda package manager:

conda config --add channels conda-forge
conda create -n stdlib-tools fypp cmake ninja
conda activate stdlib-tools

You can install conda using the miniforge installer. Also, you can install a Fortran compiler from conda-forge by installing the fortran-compiler package, which installs GFortran.

The following combinations are tested on the default branch of stdlib:

The following combinations are known to work, but they are not tested in the CI:

We try to test as many available compilers and platforms as possible. A list of tested compilers which are currently not working and the respective issue are listed below.

Please share your experience with successful and failing builds for compiler/platform/architecture combinations not covered above.

Configure the build with

cmake -B build

You can pass additional options to CMake to customize the build. Important options are

• -G Ninja to use the Ninja backend instead of the default Make backend. Other build backends are available with a similar syntax.
• -DCMAKE_INSTALL_PREFIX is used to provide the install location for the library. If not provided the defaults will depend on your operating system, see here.
• -DCMAKE_MAXIMUM_RANK the maximum array rank procedures should be generated for. The default value is chosen as 4. The maximum is 15 for Fortran 2003 compliant compilers, otherwise 7 for compilers not supporting Fortran 2003 completely yet. The minimum required rank to compile this project is 4. Compiling with maximum rank 15 can be resource intensive and requires at least 16 GB of memory to allow parallel compilation or 4 GB memory for sequential compilation.
• -DBUILD_SHARED_LIBS set to on in case you want link your application dynamically against the standard library (default: off).

For example, to configure a build using the Ninja backend and generating procedures up to rank 7, which is installed to your home directory use

cmake -B build -G Ninja -DCMAKE_MAXIMUM_RANK:String=7 -DCMAKE_INSTALL_PREFIX=$HOME/.local

To build the standard library run

cmake --build build

To test your build, run the test suite after the build has finished with

cmake --build build --target test

Please report failing tests on our issue tracker including details of the compiler used, the operating system and platform architecture.

To install the project to the declared prefix run

cmake --install build

Now you have a working version of stdlib you can use for your project.

Alternatively, you can build using provided Makefiles:

make -f Makefile.manual

You can limit the maximum rank by setting -DMAXRANK=<num> in the FYPPFLAGS environment variable (which can reduce the compilation time):

make -f Makefile.manual FYPPFLAGS=-DMAXRANK=4

The stdlib project exports CMake package files and pkg-config files to make stdlib usable for other projects. The package files are located in the library directory in the installation prefix.

For CMake builds of stdlib you can find a local installation with

find_package(fortran_stdlib REQUIRED)
...
target_link_libraries(
  ${PROJECT_NAME}
  PRIVATE
  fortran_stdlib::fortran_stdlib
)

To make the installed stdlib project discoverable add the stdlib directory to the CMAKE_PREFIX_PATH. The usual install location of the package files is $PREFIX/lib/cmake/fortran_stdlib.

For non-CMake build systems (like make) you can use the exported pkg-config file by setting PKG_CONFIG_PATH to include the directory containing the exported pc-file. The usual install location of the pc-file is $PREFIX/lib/pkgconfig. In make you can obtain the required compile and link arguments with

STDLIB_CFLAGS := $(shell pkg-config --cflags fortran_stdlib)
STDLIB_LIBS := $(shell pkg-config --libs fortran_stdlib)

Documentation is a work in progress (see issue #4) but already available at stdlib.fortran-lang.org. This includes API documentation automatically generated from static analysis and markup comments in the source files using the FORD tool, as well as a specification document or "spec" for each proposed feature.

Some discussions and prototypes of proposed APIs along with a list of popular open source Fortran projects are available on the wiki.

• Guidelines
• Issues
• Workflow
• Style guide
• Code of conduct
• License

• Proposals for the Fortran Standard Committee
• US Fortran Standards Committee
• International Fortran Standard Committee