Skip to content

Latest commit

 

History

History
157 lines (102 loc) · 8.38 KB

README.md

File metadata and controls

157 lines (102 loc) · 8.38 KB

MeshKernel

Quality Gate Status

MeshKernel is a library for creating and editing meshes. It supports 1D & 2D unstructured meshes as well as curvilinear meshes.

Wrappers for the following languages are available:

The library is separated in an API namespace (MeshKernelApi) used for communication with the client and a backend namespace (MeshKernel) where the algorithms are implemented. The API namespace contains several structures used as parameters for the API methods (see API usage section). These structures must be mirrored in the client application and filled with appropriate values.

Examples

  1. Creating a triangular mesh inside a polygon

In this example a mesh is created by discretizing the polygon perimeter with the desired edge length.

alt tag

  1. Mesh orthogonalization

Finite volume staggered flow solvers require the mesh to be as much orthogonal as possible. MeshKernel provides an algorithm to adapt the mesh and achieve a good balance between mesh orthogonality and smoothness.

alt tag

  1. Curvilinear mesh generation

Curvilinear meshes for rivers can be generated using splines.

alt tag

  1. Mesh refinement

A mesh can be refined in areas based on samples or polygon selections.

alt tag

Shared library dependencies (Linux)

  • libgomp

Build Requirements

The requirements are:

  • Git
  • CMake 3.23 or higher
  • A C++20 compatible compiler. Currently the following compilers are supported:
    • Windows: Microsoft Visual C++
    • Linux: GCC
    • macOS: GCC. Clang is not yet supported. Care must be taken if gcc and g++ are symbolic links to clang and clang++
  • The Boost libraries
  • NetCDF
  • Doxygen (optional)

Dependencies

Boost

  • Under Windows, precompiled boost binaries (with MSVC compiler) can be downloaded here. Alternatively, the source code is available here and the installation instructions can be found here. Once installed, set the boost environment variable BOOST_INCLUDEDIR to the appropriate path. For example, if version 1.74.0 in installed in C:\Apps, set BOOST_INCLUDEDIR=C:\Apps\boost_1_74_0.
  • Under Linux, Boost can be either obtained from the package repository of the used Linux distribution or built from source following these instructions.
  • Under macOS, Boost can be installed by following these instructions.

NetCDF

The NetCDF static library is required for building MeshKernel. Optionally, a PowerShell script is made available for cloning and building NetCDF and its dependencies (HDF5, ZLIB, Curl, and m4). It can be used under Windows, Linux, and macOS. The script is compatible with Powershell version 7 and higher. If necessary, Windows users need to upgrade to from version 5 to 7. The procedure is described here.

To run the script in a PowerShell session, use

.\install_netcdf_static.ps1 -WorkDir '/path/to/work/directory' -InstallDir '/path/to/install/directory' -BuildType 'Release' -ParallelJobs 10 -GitTags @{zlib = 'v1.2.13'; curl = 'curl-7_88_1';  hdf5 = 'hdf5-1_14_0';  netcdf_c = 'v4.9.1'}

with /path/to/work/directory and /path/to/install/directory replaced with valid paths.

For more information regarding the script's options above, use

Get-Help .\install_netcdf_static.ps1 -Detailed

Upon successful installation, to build MeshKernel successfully, it is important to either

  • add the path to the install directory to the system path, or
  • configure the MeshKernel build with -DCMAKE_PREFIX_PATH=/path/to/install/directory.

Note: Additional dependencies may be required depending on the system configuration:

Configuring and Building MeshKernel

Follow the steps below to configure, build and install MeshKernel.

Steps

  1. To configure under Windows with Visual Studio, a solution is generated using

    cmake -S <path-to-source-dir> -B <path-to-build-dir> -G "Visual Studio 16 2019" --install-prefix <path-to-install-dir>

    This example uses Visual Studio 16 2019. A different version can be specified. In the above

    • <path-to-source-dir> is the path to the MeshKernel source tree (the top-level directory containing source files provided by the project).
    • <path-to-build-dir> is the path to the directory where MeshKernel is to be built.
    • <path-to-install-dir> is the path top the directory where MeshKernel is to be installed.

    Under Linux and macOS , the generator option can be omitted or the following can be used:

    cmake -S <path-to-source-dir> -B <path-to-build-dir> -G "Unix Makefiles" --install-prefix <path-to-install-dir>
  2. To build the project's targets, use:

    cmake --build <path-to-build-dir> --config <cfg> --parallel <jobs>

    where

    • <cfg> is the build type (Debug, Release, RelWithDebInfo and MinSizeRel), see CMAKE_BUILD_TYPE.
    • <jobs> is the maximum number of concurrent processes to use when building.

    Note: this builds the documentation by default in <path-to-build-dir>/docs/html.

  3. To install, use:

    cmake --install <path-to-build-dir>

    or

    cmake --install <path-to-build-dir> --prefix [<path-to-install-dir>]

    to override the installation path specified during configuration (step 1).

Additional configuration options

MeshKernel can be configured with a set of options, which are summarized in the table below.

Option Description Type Default Notes
ENABLE_UNIT_TESTING Enables building the unit test executables Bool ON
ENABLE_BENCHMARKING Enables building the benchmark executable Bool OFF
ENABLE_BENCHMARKING_MEM_REPORT Enables reporting memory usage statistics Bool OFF Applicable only when ENABLE_BENCHMARKING is ON, ignored otherwise
ENABLE_CODE_COVERAGE Generates code coverage report Bool OFF Valid only under Linux and macOS when a GNU compiler is used (requires gcov), ignored otherwise
HAVE_SRC_LOC_IN_ERR_MSGS Includes the source location information in custom exceptions Bool OFF