/gismo

G+Smo (pronounced gismo or gizmo) is a C++ library for isogeometric analysis (IGA). Geometry plus simulation modules aims at the seamless integration of Computer-aided Design (CAD) and Finite Element Analysis (FEA).

Primary LanguageC++Mozilla Public License 2.0MPL-2.0

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======================================================================
=====             Geometry plus Simulation modules               =====
=====                   https://github.com/gismo                 =====
======================================================================

Continuous Integration status

System Status More information
CDash cdash Report results from all builds
Appveyor Appveyor status Windows MSVC 14.0
Circle CI Circle CI MacOS XCode 14.3 (x86_64/arm64)
Codeship Codeship Status
GitLab pipeline status Linux non-default configurations
GitHub Actions Build Status Latest Linux/MacOS/Windows
GitLab-Inria Build Status CI at Inria
GCC Farm Status Builders from the GCC Farm
OBS binaries Upstream package builds for many Linux distributions
Launchpad binaries Upstream package builds for Ubuntu distributions

This README file contains brief information. More details are found in the Wiki pages.

The latest revision of the code can be obtained using git (via https):

git clone https://github.com/gismo/gismo.git

or using subversion:

svn co https://github.com/gismo/gismo/trunk gismo

or as a tar.gz or zip file:

Prerequisites

Compilation

The compilation requires configuration using CMake at a new, empty folder (in-source builds are disabled).

  • On Linux/macOS: A Unix makefile exists in the root source folder. Running make creates a sub folder named build and executes CMake and compilation inside that folder. Alternatively, choose your own build folder and execute CMake pointing to the sources.

  • On MS Windows:

    • To compile G+Smo natively, you can use MS Visual Studio which has built-in CMake support since version 2015. Alternatively, you can run the cmake-gui tool (from an environment that is configured with your compiler) to generate makefiles (or Visual Studio project files). Then execute the make tool to launch compilation. Alternatively, use the QtCreator GUI and open the CMakeLists.txt file on the root folder to create a QtCreator project.

    • Another option is to install Windows Subsystem for Linux which:

      lets developers install a Linux distribution [...] and use Linux applications, utilities, and Bash command-line tools directly on Windows, unmodified, without the overhead of a traditional virtual machine or dualboot setup.

      Then you can download, compile and use G+Smo as if your were using a native Linux machine.

After successful compilation a dynamic library is created in ./lib and executable example programs are output at the ./bin subdirectory of the build folder.

Additionally, if Doxygen is available on the system one can execute (eg. on Linux):

make doc

to obtain the Doxygen documentation in HTML format. The main doxygen page is at ./doc/html/index.html.

More information at https://github.com/gismo/gismo/wiki

Optional modules

There is a number of optional modules that may be enabled.

Name Description
gsOpenCascade Extends functionality using OpenCascade
gsElasticity
gsKLShell
gsStructuralAnalysis

To enable e.g. gsSpectra and gsOpenCascade set the following option in CMake:

-D GISMO_OPTIONAL="gsSpectra;gsOpenCascade"

Configuration Options

The available options are displayed at CMake configuration. Short description and default setting follows:

  • CMAKE_BUILD_TYPE Release

    Available values are the standard CMake build configurations: Debug, Release, RelWithDebInfo, MinSizeRel.

  • GISMO_COEFF_TYPE double

    The arithmetic type to be used for all computations. Available options include double, long double, float.

  • GISMO_EXTRA_INSTANCE not set

    If set to one or more of the options available for GISMO_COEFF_TYPE the G+Smo library is compiled with extra arithmetic types enabled.

  • GISMO_WITH_XDEBUG OFF

    If set to ON additional debugging tools are enabled during compilation. These include checked iterators for GCC and MSVC compilers and call stack back-trace printout when a runtime exception occurs.

  • GISMO_BUILD_LIB ON

    If enabled a dynamic library is created using GISMO_COEFF_TYPE arithmetic. A target for a static library named gismo_static is also created but not compiled by default.

  • GISMO_BUILD_EXAMPLES ON

    If enabled the programs in the examples folder are compiled, and executables are created in build-folder/bin.

  • GISMO_BUILD_UNITTESTS OFF

    If enabled the tests in the unittests folder are compiled, and an executable is created in build-folder/bin.

  • GISMO_PLUGIN_AXL OFF

    If enabled the plugin for Axel modeler is compiled (requires Axel).

  • GISMO_WITH_PSOLID OFF

    If enabled the extensions using functionalities of Parasolid geometric kernel are compiled (requires Parasolid).

  • gsOpennurbs

    Extension for reading and writing of Rhinoceros' 3DM.

  • CMAKE_INSTALL_PREFIX (system dependent)

    The location for installation of the library, e.g. /usr/local on some Linux systems.

Directory structure

The source tree consists of the following sub-folders:

  • src

Contains all source files. Code is partitioned into modules. Currently eleven modules are present as sub-folders:

  • gsCore
  • gsMatrix
  • gsNurbs
  • gsHSplines
  • gsModeling
  • gsAssembler
  • gsSolver
  • gsPde
  • gsTensor
  • gsIO
  • gsUtils
  • examples

    Examples of usage, small programs and tutorials.

  • unittests

    Unittests for some parts of the codebase.

  • filedata

    Data files in the XML format the G+Smo can read and write.

  • extensions

    Optional additional features that can be compiled along G+Smo.

  • plugins

    The plugins for:

    • Axel modeler
    • Rhinoceros' 3DM
  • cmake

    Cmake configuration files.

  • doc

    Files related to doxygen documentation.

Third-party repository distribution

Contact and support

People

Coordinator and maintainer: Angelos Mantzaflaris

See full list in our wiki pages

OS-license

The G+Smo library is distributed under the Mozilla Public License v2.0. (see LICENSE.txt).