►Nbgeot | Basic Geometric Tools |
CComma_initializer | Template class which forwards insertions to the container class |
Cconvex | Generic definition of a convex ( bgeot::convex_structure + vertices coordinates ) |
Cconvex_of_reference | Base class for reference convexes |
Cconvex_structure | Structure of a convex |
Cgeometric_trans | Description of a geometric transformation between a reference element and a real element |
Cgeotrans_interpolation_context | Geotrans_interpolation_context structure is passed as the argument of geometric transformation interpolation functions |
Cgeotrans_inv | Handles the geometric inversion for a given (supposedly quite large) set of points |
Cgeotrans_inv_convex | Does the inversion of the geometric transformation for a given convex |
Cgeotrans_precomp_ | Precomputed geometric transformation operations use this for repetitive evaluation of a geometric transformations on a set of points "pspt" in the reference convex which do not change |
Cgeotrans_precomp_pool | The object geotrans_precomp_pool Allow to allocate a certain number of geotrans_precomp and automatically delete them when it is deleted itself |
Cimbricated_box_less | A comparison function for bgeot::base_node |
Cindex_node_pair | Store a point and the associated index for the kdtree |
Ckdtree | Balanced tree over a set of points |
Cmesh_structure | Mesh structure definition |
Cnode_tab | Store a set of points, identifying points that are nearer than a certain very small distance |
Cpermutation | Generation of permutations, and ranking/unranking of these |
Cpolynomial | This class deals with plain polynomials with several variables |
Cpower_index | Vector of integer (16 bits type) which represent the powers of a monomial |
Crtree | Balanced tree of n-dimensional rectangles |
Csmall_vector | Container for small vectors of POD (Plain Old Data) types |
Cstored_point_tab | Point tab storage |
Ctorus_geom_trans | An adaptor that adapts a two dimensional geometric_trans to include radial dimension |
Ctorus_structure | Torus_structure which extends a 2 dimensional structure with a radial dimension |
►Ndal | Dynamic Array Library |
Cdna_const_iterator | Constant iterator class for dynamic array |
Cdna_iterator | Iterator class for dynamic array |
Cdynamic_array | Dynamic Array |
Cenr_static_stored_object | Pointer to an object with the dependencies |
Cenr_static_stored_object_key | Pointer to a key with a coherent order |
Cnaming_system | Associate a name to a method descriptor and store method descriptors |
Csingleton | Singleton class |
Cstatic_stored_object | Base class for static stored objects |
Cstored_object_tab | Table of stored objects |
►Ngetfem | GEneric Tool for Finite Element Methods |
Cabstract_constraints_projection | Abstract projection of a stress tensor onto a set of admissible stress tensors |
Cabstract_hyperelastic_law | Base class for material law |
Cabstract_xy_function | Below a list of simple functions of (x,y) used for building the crack singular functions |
CCiarlet_Geymonat_hyperelastic_law | Ciarlet-Geymonat hyperelastic law |
Ccontext_dependencies | Deal with interdependencies of objects |
Ccopyable_ptr | A wrapper around a unique_ptr that clones the value on copy |
Cdistro | Multi-threaded distribution of a single vector or a matrix |
Cdx_export | A (quite large) class for exportation of data to IBM OpenDX |
Celastoplasticity_nonlinear_term | Compute the projection of D*e + sigma_bar_ on the dof of sigma |
Cfem | Virtual_fem implementation as a vector of generic functions |
Cfem_global_function | Fem object with global basis functions |
Cfem_interpolation_context | Structure passed as the argument of fem interpolation functions |
Cfem_level_set | FEM associated with getfem::mesh_fem_level_set objects |
Cfem_precomp_ | Pre-computations on a fem (given a fixed set of points on the reference convex, this object computes the value/gradient/hessian of all base functions on this set of points and stores them |
Cfem_precomp_pool | Handle a pool (i.e |
Cgeneralized_Blatz_Ko_hyperelastic_law | Blatz_Ko hyperelastic law |
Cgeneric_assembly | Generic assembly of vectors, matrices |
Cglobal_function | Inherit from this class to define new global functions |
Cim_data | Im_data provides indexing to the integration points of a mesh im object |
Cintegration_method | This structure is not intended to be used directly |
Cinterpolated_fem | FEM which interpolates a mesh_fem on a different mesh |
Cinterpolator_on_mesh_fem | General structure for interpolation of a function defined by a mesh_fem and a vector U at any point (interpolation of value and gradient) |
Clevel_set | Define a level-set |
Clist_distro | Takes a list (more often it's a std::vector) of matrices or vectors, creates an empty copy on each thread |
Cmat_elem_type | Description of an elementary matrix |
Cmembrane_elastic_law | Linear law for a membrane (plane stress), orthotropic material caracterized by Ex, Ey, vYX and G, with optional orthotropic prestresses |
Cmesh | Describe a mesh (collection of convexes (elements) and points) |
Cmesh_fem | Describe a finite element method linked to a mesh |
Cmesh_fem_global_function | This is a convenience class for defining a mesh_fem with base functions which are global functions (functions defined across more than one convexes of a mesh) given by the user |
Cmesh_fem_sum | Implement a special mesh_fem with merges the FEMs of two (or more) mesh_fems |
Cmesh_im | Describe an integration method linked to a mesh |
Cmesh_im_cross_level_set | Describe an adaptable integration method linked to a mesh cut by at least two level sets on the intersection of two level sets |
Cmesh_im_level_set | Describe an adaptable integration method linked to a mesh cut by a level set |
Cmesh_level_set | Keep informations about a mesh crossed by level-sets |
►Cmesh_region | Structure used to hold a set of convexes and/or convex faces |
Cvisitor | "iterator" class for regions |
Cmesh_slice_cv_dof_data | Use this structure to specify that the mesh must be deformed before the slicing operation (with a mesh_fem and an associated field) |
Cmesh_slicer | Apply a serie a slicing operations to a mesh |
Cmodel | ``Model'' variables store the variables, the data and the description of a model |
CMooney_Rivlin_hyperelastic_law | Mooney-Rivlin hyperelastic law |
CNeo_Hookean_hyperelastic_law | Neo-Hookean hyperelastic law variants |
Cnonlinear_elem_term | Abstract class for integration of non-linear terms into the mat_elem computations the nonlinear term is added into the mat_elem_type via mat_elem_nonlinear |
Comp_distribute | Use this template class for any object you want to distribute to open_MP threads |
Comp_distribute< bool > | Specialization for bool, to circumvent the shortcommings of standards library specialization for std::vector<bool> |
Cpartial_mesh_fem | Subclass of mesh_fem which allows to eliminate a number of dof of the original mesh_fem |
Cplane_strain_hyperelastic_law | Plane strain hyperelastic law (takes another law as a parameter) |
Cpoly_integration | Description of an exact integration of polynomials |
Cpos_export | POS export |
Cprojected_fem | FEM which interpolates the projection of a mesh_fem on a different mesh |
Cregion_partition | Used to partition a mesh region so that each partition can be used on a different thread |
CSaintVenant_Kirchhoff_hyperelastic_law | Saint-Venant Kirchhoff hyperelastic law |
Cslicer_action | Generic slicer class |
Cslicer_boundary | Extraction of the boundary of a slice |
Cslicer_build_edges_mesh | Slicer whose side-effect is to build the list of edges (i.e |
Cslicer_build_mesh | Slicer whose side-effect is to build a mesh from the slice simplexes |
Cslicer_build_stored_mesh_slice | Getfem::mesh_slicer whose side effect is to build a stored_mesh_slice object |
Cslicer_complementary | Build the complementary of a slice |
Cslicer_compute_area | Slicer whose side-effect is to compute the area of the slice |
Cslicer_cylinder | Slices a mesh with a cylinder (or its boundary) |
Cslicer_explode | Contract or expand each convex with respect to its gravity center |
Cslicer_half_space | Slice a mesh with a half-space (or its boundary) |
Cslicer_intersect | Build the intersection of two slices |
Cslicer_isovalues | Extract an isosurface |
Cslicer_mesh_with_mesh | Slices a mesh with another mesh |
Cslicer_none | This slicer does nothing |
Cslicer_sphere | Slices a mesh with a sphere (or its boundary) |
Cslicer_union | Union of two slices |
Cslicer_volume | Base class for general slices of a mesh (planar, sphere, cylinder,isosurface) |
Cstored_mesh_slice | The output of a getfem::mesh_slicer which has been recorded |
Ctemporary_mesh_deformator | An object function that first deforms and then remembers to restore a mesh if it has to be restored for other bricks |
Cthread_exception | Allows to re-throw exceptions, generated in OpemMP parallel section |
Ctorus_fem | Torus fem, the real grad base value is modified to compute radial grad of F/R |
Ctorus_mesh | Copy an original 2D mesh to become a torus mesh with radial dimension |
Ctorus_mesh_fem | Mesh fem object that adapts |
Cvirtual_brick | The virtual brick has to be derived to describe real model bricks |
Cvirtual_dispatcher | The time dispatcher object modify the result of a brick in order to apply a time integration scheme |
Cvirtual_fem | Base class for finite element description |
Cvirtual_time_scheme | The time integration scheme object provides the necessary methods for the model object to apply a time integration scheme to an evolutionnary problem |
CVM_projection | Von Mises projection |
Cvtk_export | VTK export |
►Ngmm | |
Cdiagonal_precond | Diagonal preconditioner |
Cdsvector | Sparse vector built on distribution sort principle |
CHarwellBoeing_IO | Matrix input/output for Harwell-Boeing format |
Cildlt_precond | Incomplete Level 0 LDLT Preconditioner |
Cildltt_precond | Incomplete LDL^t (cholesky) preconditioner with fill-in and threshold |
Cilu_precond | Incomplete LU without fill-in Preconditioner |
Cilut_precond | Incomplete LU with threshold and K fill-in Preconditioner |
Cilutp_precond | ILUTP: Incomplete LU with threshold and K fill-in Preconditioner and column pivoting |
Citeration | The Iteration object calculates whether the solution has reached the desired accuracy, or whether the maximum number of iterations has been reached |
CMatrixMarket_IO | Matrix input/output for MatrixMarket storage |
Cmr_approx_inverse_precond | Approximate inverse via MR iteration (see P301 of Saad book) |
Crsvector | Sparse vector built upon std::vector |
Cslvector | Skyline vector |
Cstandard_locale | This is the above solutions for linux, but it still needs to be tested |
CSuperLU_factor | Factorization of a sparse matrix with SuperLU |
Ctab_ref_index_ref | Indexed array reference (given a container X, and a set of indexes I, this class provides a pseudo-container Y such that |
Ctab_ref_index_ref_iterator_ | Iterator over a gmm::tab_ref_index_ref<ITER,ITER_INDEX> |
Ctab_ref_reg_spaced | Provide a "strided" view a of container |
Ctab_ref_with_selection | Given a container X and a predicate P, provide pseudo-container Y of all elements of X such that P(X[i]) |
Ctab_ref_with_selection_iterator_ | Iterator over a tab_ref_with_selection |
Cwsvector | Sparse vector built upon std::map |
►Nlevel_set_contact | |
Ccontact_body | Base class for the master and the slave contact bodies |
Ccontact_pair_info | Prepares the final information needed to pass to the contact brick for every contact pair to assemble tangent terms |
Ccontact_pair_update | Temporary object that updates contact pair, deformes meshes and undeformes when it selfdestructs |
CHFunction | Regularized Heaviside function |
Clevel_set_contact_brick | Assembles normal contact terms on the boundary of two contact bodies (master/slave) |
Cmaster_contact_body | Master contact body which surface will be used to project contact stresses and stiffness terms |
CNormalTerm | A term, used in level set contact assemblies that builds a surface projection matrix R = N^t X N (where N is normal vector to the boundary) |
Cslave_contact_body | Contact body that will be projected on the boundary of the master |