|   docs | |
|    doxygen | |
|     examples | |
|      bft_error_example.c | |
|      cs_remarks.h | |
|      cs_user_boundary_conditions_examples.h | |
|      cs_user_extra_operations_examples.h | |
|      cs_user_initialization.h | |
|      cs_user_les_inflow.h | |
|      cs_user_parameters.h | |
|      drift_coal_scalars.h | |
|      drift_scalars.h | |
|     mainpage.h | |
|   src | |
|    alge | |
|     bilsc4.f90 | This function adds the explicit part of the convection/diffusion terms of a transport equation of a vector field  | 
|     bilsca.f90 | Wrapper to the function which adds the explicit part of the convection/diffusion terms of a transport equation of a scalar field  | 
|     bilsct.f90 | This function adds the explicit part of the convection/diffusion terms of a transport equation of a scalar field  such as the temperature | 
|     bilscv.f90 | Wrapper to the function which adds the explicit part of the convection/diffusion terms of a transport equation of a vector field  | 
|     cs_benchmark.c | |
|     cs_benchmark.h | |
|     cs_blas.c | |
|     cs_blas.h | |
|     cs_convection_diffusion_balance.c | |
|     cs_convection_diffusion_balance.h | |
|     cs_gradient.c | |
|     cs_gradient.h | |
|     cs_gradient_perio.c | |
|     cs_gradient_perio.h | |
|     cs_grid.c | |
|     cs_grid.h | |
|     cs_matrix.c | |
|     cs_matrix.h | |
|     cs_matrix_priv.h | |
|     cs_matrix_util.c | |
|     cs_matrix_util.h | |
|     cs_multigrid.c | |
|     cs_multigrid.h | |
|     cs_sles.c | |
|     cs_sles.h | |
|     diften.f90 | This function adds the explicit part of the diffusion terms with a symmetric tensor diffusivity for a transport equation of a scalar field  | 
|     diftnv.f90 | This function adds the explicit part of the diffusion terms with a symmetric tensor diffusivity for a transport equation of a vector field  | 
|     divmas.f90 | |
|     divrij.f90 | |
|     grdcel.f90 | |
|     grdpot.f90 | |
|     grdpre.f90 | |
|     grdvec.f90 | |
|     inimas.f90 | This function adds  to the mass flux  for the segregated algorithm on the velocity components | 
|     inimav.f90 | This function adds  to the mass flux  | 
|     invers.f90 | |
|     itrgrp.f90 | |
|     itrgrv.f90 | This function adds the explicit part of the divergence of the mass flux due to the pressure gradient (routine analog to diften.f90) | 
|     itrmas.f90 | |
|     itrmav.f90 | This function adds the explicit part of the pressure gradient to the mass flux for a tensorial diffusion for the pressure field  | 
|     matrdt.f90 | |
|     matrix.f90 | This function builds the matrix of advection/diffusion for a scalar field | 
|     matrvv.f90 | This function builds the matrix of advection/diffusion for a vector field with a tensorial diffusivity | 
|     matrxv.f90 | This function builds the matrix of advection/diffusion for a vector field | 
|     prodsc.f90 | Dot product vava= | 
|     projts.f90 | |
|     projtv.f90 | This function projects the external source termes to the faces in coherence with itrmav.f90 for the improved hydrostatic pressure algorithm (iphydr=1) | 
|     viscfa.f90 | |
|     visort.f90 | |
|     vistnv.f90 | This function computes the equivalent tensor viscosity at faces for a 3x3 symetric tensor | 
|     vitens.f90 | This function computes the equivalent viscosity at faces for a 3x3 symetric tensor | 
|    apps | |
|     cs_check_syntax.c | |
|     cs_io_dump.c | |
|     cs_solver.c | |
|    atmo | |
|     atchem.f90 | Module for chemistry in the atmospheric module | 
|     atincl.f90 | Module for atmospheric models | 
|     atini1.f90 | |
|     atiniv.f90 | |
|     atleca.f90 | Reads intial aerosol concentrations and number | 
|     atlecc.f90 | Reads the chemistry profile data for the atmospheric chemistry | 
|     atlecm.f90 | |
|     atmcls.f90 | |
|     atmsol.f90 | |
|     atmstd.f90 | |
|     atphyv.f90 | |
|     atprke.f90 | |
|     atprop.f90 | |
|     atr1vf.f90 | |
|     atsoil.f90 | Module for the atmospheric soil model structures | 
|     attssc.f90 | |
|     attycl.f90 | |
|     atvarp.f90 | |
|     chem_luscheme1.f90 | Routines for atmospheric chemical scheme 1 | 
|     chem_luscheme2.f90 | Routines for atmospheric chemical scheme 2 | 
|     chem_luscheme3.f90 | Routines for atmospheric chemical scheme 3 | 
|     chem_luscheme_siream.f90 | Routines for atmospheric chemical scheme 3 | 
|     chem_solvelu.f90 | Solver of AX=B with LU decomposition of A for atmospheric chemical systems | 
|     chem_source_terms.f90 | Computes the explicit chemical source term for atmospheric chemistry in case of a semi-coupled resolution | 
|     compute_gaseous_chemistry.f90 | Calls the rosenbrock resolution for atmospheric chemistry | 
|     compute_siream.f90 | Computation of atmospheric aerosol chemistry | 
|     cs_at_plugin.c | |
|     cs_at_plugin.h | |
|     etheq.f90 | |
|     intprf.f90 | |
|     kinrates.f90 | Calls the computation of reaction rates for atmospheric chemistry | 
|     nuclea.f90 | |
|     rayigc.f90 | |
|     rayir.f90 | |
|     rayive.f90 | |
|     rayso.f90 | |
|     raysze.f90 | |
|     roschem.f90 | Rosenbrock solver for atmospheric chemistry | 
|     satfun.f90 | |
|     siream.f90 | Module for atmospheric aerosol chemistry in the atmospheric module | 
|     solcat.f90 | |
|     soliva.f90 | |
|     solmoy.f90 | |
|     solvar.f90 | |
|     spefun.f90 | Module for specific math functions | 
|    base | |
|     addfld.f90 | Add additional fields based on user options | 
|     alaste.f90 | Module for ALE with Code_Aster coupling | 
|     albase.f90 | Module for Arbitrary Lagrangian Eulerian method (ALE) | 
|     alelav.f90 | This subroutine performs the solving of a Poisson equation on the mesh velocity for ALE module | 
|     alemav.f90 | This subroutine updates the mesh in the ALE framework | 
|     alstru.f90 | Module for ALE structure movement with internal coupling | 
|     altycl.f90 | Boundary condition code (in ialtyb) for the ALE module | 
|     calhyd.f90 | Poisson equation resolution for hydrostatic pressure:  | 
|     calmom.f90 | |
|     caltri.f90 | |
|     catsma.f90 | Implicit and explicit sources terms from sources mass computation | 
|     catsmv.f90 | Compute explicit and implicit source terms coming from mass source | 
|     clca66.f90 | |
|     clpsca.f90 | |
|     clptrg.f90 | Boundary conditions for rought walls (icodcl = 6) | 
|     clptur.f90 | Boundary conditions for smooth walls (icodcl = 5) | 
|     clsyvt.f90 | Symmetry boundary conditions for vectors and tensors | 
|     codits.f90 | This function solves an advection diffusion equation with source terms for one time step for the variable  | 
|     coditv.f90 | This function solves an advection diffusion equation with source terms for one time step for the vector variable  | 
|     condli.f90 | Translation of the boundary conditions given by cs_user_boundary_conditions in a form that fits to the solver | 
|     cou1di.f90 | |
|     cou1do.f90 | |
|     coupbi.f90 | |
|     coupbo.f90 | |
|     covofi.f90 | This subroutine performs the solving the convection/diffusion equation (with eventually source terms and/or drift) for a scalar quantity over a time step | 
|     cplsat.f90 | Module for code/code coupling | 
|     cptssy.f90 | |
|     cpvosy.f90 | |
|     cregeo.f90 | |
|     cs2tsv.f90 | Code-code coupling with source terms | 
|     cs_ale.c | |
|     cs_ale.h | |
|     cs_all_to_all.c | |
|     cs_all_to_all.h | |
|     cs_array_reduce.c | |
|     cs_array_reduce.h | |
|     cs_ast_coupling.c | |
|     cs_ast_coupling.h | |
|     cs_base.c | |
|     cs_base.h | |
|     cs_base_fortran.c | |
|     cs_base_fortran.h | |
|     cs_block_dist.c | |
|     cs_block_dist.h | |
|     cs_block_to_part.c | |
|     cs_block_to_part.h | |
|     cs_boundary_conditions.c | |
|     cs_boundary_conditions.h | |
|     cs_c_bindings.f90 | Definition of structure, subroutine, and function C bindings | 
|     cs_calcium.c | |
|     cs_calcium.h | |
|     cs_control.c | Handle control file usable for interactive change of stop, post-processing or checkpoint behavior | 
|     cs_control.h | |
|     cs_coupling.c | |
|     cs_coupling.h | |
|     cs_defs.c | |
|     cs_defs.h | |
|     cs_eos.cxx | |
|     cs_ext_neighborhood.c | |
|     cs_ext_neighborhood.h | |
|     cs_f_interfaces.f90 | Definition of explicit interfaces for Fortran functions | 
|     cs_field.c | |
|     cs_field.h | |
|     cs_field_operator.c | |
|     cs_field_operator.h | |
|     cs_field_pointer.c | |
|     cs_field_pointer.h | |
|     cs_file.c | |
|     cs_file.h | |
|     cs_halo.c | |
|     cs_halo.h | |
|     cs_halo_perio.c | |
|     cs_halo_perio.h | |
|     cs_interface.c | |
|     cs_interface.h | |
|     cs_io.c | |
|     cs_io.h | |
|     cs_log.c | |
|     cs_log.h | |
|     cs_log_iteration.c | Log field and other array statistics at relevant time steps | 
|     cs_log_iteration.h | |
|     cs_map.c | |
|     cs_map.h | |
|     cs_measures_util.c | |
|     cs_measures_util.h | |
|     cs_numbering.c | |
|     cs_numbering.h | |
|     cs_opts.c | |
|     cs_opts.h | |
|     cs_order.c | |
|     cs_order.h | |
|     cs_parall.c | |
|     cs_parall.h | |
|     cs_paramedmem_coupling.cxx | |
|     cs_parameters.c | |
|     cs_parameters.h | |
|     cs_part_to_block.c | |
|     cs_part_to_block.h | |
|     cs_physical_properties.c | |
|     cs_physical_properties.h | |
|     cs_post.c | Post-processing management | 
|     cs_post.h | |
|     cs_post_default.c | |
|     cs_post_default.h | |
|     cs_preprocess.c | |
|     cs_preprocess.h | |
|     cs_preprocessor_data.c | |
|     cs_preprocessor_data.h | |
|     cs_prototypes.h | |
|     cs_renumber.c | |
|     cs_renumber.h | |
|     cs_resource.c | |
|     cs_resource.h | |
|     cs_restart.c | |
|     cs_restart.h | |
|     cs_restart_default.c | |
|     cs_restart_default.h | |
|     cs_sat_coupling.c | |
|     cs_sat_coupling.h | |
|     cs_search.c | |
|     cs_search.h | |
|     cs_selector.c | |
|     cs_selector.h | |
|     cs_selector_f2c.f90 | |
|     cs_sort.c | |
|     cs_sort.h | |
|     cs_syr4_coupling.c | |
|     cs_syr4_coupling.h | |
|     cs_syr_coupling.c | |
|     cs_syr_coupling.h | |
|     cs_system_info.c | |
|     cs_system_info.h | |
|     cs_time_plot.c | |
|     cs_time_plot.h | |
|     cs_time_step.c | |
|     cs_time_step.h | |
|     cs_timer.c | |
|     cs_timer.h | |
|     cs_tpar1d.c | |
|     cs_tpar1d.h | |
|     cs_turbomachinery.c | |
|     cs_turbomachinery.h | |
|     cs_ventil.c | |
|     cs_ventil.h | |
|     cs_wall_functions.c | |
|     cs_wall_functions.h | |
|     csc2cl.f90 | Translation of the "itypfb(*, *) = icscpl" condition | 
|     cscelv.f90 | Exchange of coupling variables between to times of Code_Saturne thanks to boundary faces | 
|     cscfbr.f90 | Exchange of variables for coupling two Code_Saturne intances with boundary faces | 
|     cscini.f90 | Initialization of main variables for code_saturne / code_saturne coupling | 
|     csclli.f90 | |
|     cscloc.f90 | Coupling interfaces localization (with FVM) | 
|     cscpfb.f90 | Preparation of sending variables for coupling between two instances of Code_Saturne via boundary faces. Received indformation will be transformed into boundary condition in subroutine csc2cl | 
|     csinit.f90 | |
|     csopli.f90 | |
|     cspcev.f90 | Preparation of sending velocity variables for coupling between two instances of Code_Saturne via boundary faces. Received indformation will be transformed into boundary condition in subroutine csc2cl | 
|     csprnt.f90 | |
|     cstnum.f90 | Module for numerical constants | 
|     cstphy.f90 | Module for physical constants | 
|     diffst.f90 | |
|     dimens.f90 | Module for dimensions | 
|     distpr.f90 | Compute distance to wall by solving a 3d diffusion equation. Solve 
 with: | 
|     distyp.f90 | This subroutine computes the dimensionless distance to the wall solving a transport equation | 
|     driflu.f90 | Compute the modified convective flux for scalars with a drift | 
|     dttvar.f90 | |
|     dvvpst.f90 | Standard output of variables on post-processing meshes (called after cs_user_extra_operations) | 
|     ecrava.f90 | |
|     ecrhis.f90 | Write plot data | 
|     ecrlis.f90 | |
|     entsor.f90 | Module for input/output | 
|     field.f90 | Module for field-related operations | 
|     field_operator.f90 | Module for field-based algebraic operations | 
|     findpt.f90 | |
|     fldini.f90 | |
|     fldtri.f90 | |
|     haltyp.f90 | |
|     hturbp.f90 | |
|     idrbla.f90 | |
|     ihmpre.f90 | Module for GUI parameter file flag We could avoid this module by querying a C structure | 
|     impini.f90 | |
|     iniini.f90 | Commons default initialization before handing over the user | 
|     initi1.f90 | Commons initialization | 
|     initi2.f90 | End of commons initialization | 
|     iniusi.f90 | |
|     iniva0.f90 | Computed variable initialization. The time step, the indicator of wall distance computation are also initialized just before reading a restart file or use the user initializations | 
|     inivar.f90 | Initialization of calculation variables, time step and table that stores distance to the wall by the user (after reading a restart file) | 
|     iprbla.f90 | |
|     lecamo.f90 | |
|     lecamp.f90 | |
|     lecamx.f90 | |
|     majgeo.f90 | |
|     memfin.f90 | |
|     mesh.f90 | Module for mesh-related arrays | 
|     mltgrd.f90 | Module for multigrid parameters | 
|     mmtyc2.f90 | |
|     mmtycl.f90 | |
|     modini.f90 | Modify calculation parameters after user changes (module variables) | 
|     navstv.f90 | Solving of NS equations for incompressible or slightly compressible flows for one time step. Both convection-diffusion and continuity steps are performed. The velocity components are solved together in once | 
|     newmrk.f90 | |
|     numvar.f90 | Module for variable numbering | 
|     numvec.f90 | |
|     optcal.f90 | Module for calculation options | 
|     ordita.f90 | |
|     parall.f90 | Module for basic MPI and OpenMP parallelism-related values | 
|     paramx.f90 | Module for definition of general parameters | 
|     period.f90 | Module for periodicity flags | 
|     phyvar.f90 | This subroutine fills physical properties which are variable in time (mainly the eddy viscosity) | 
|     pointe.f90 | Module for pointer variables | 
|     post.f90 | Module for post-processing related operations | 
|     post_util.f90 | |
|     precli.f90 | Preparation of boudary conditions determination Boundary faces of precedent step are used. Except at first time step, where arrays itypfb and itrifb are undefined | 
|     predfl.f90 | Update the convective mass flux before the Navier Stokes equations (prediction and correction steps) | 
|     predvv.f90 | This subroutine perform the velocity prediction step of the Navier Stokes equations for incompressible or slightly compressible flows for the coupled velocity components solver | 
|     prehyd.f90 | Compute an "a priori" hydrostatic pressure and its gradient associated before the Navier Stokes equations (prediction and correction steps navstv.f90) | 
|     prmoy0.f90 | |
|     pthrbm.f90 | |
|     ptrglo.f90 | |
|     resopv.f90 | This subroutine performs the pressure correction step of the Navier Stokes equations for incompressible or slightly compressible flows for the coupled velocity components solver | 
|     scalai.f90 | Resolution of source term convection diffusion equations for scalars in a time step | 
|     schtmp.f90 | |
|     stdtcl.f90 | |
|     strdep.f90 | |
|     strhis.f90 | |
|     strini.f90 | |
|     strpre.f90 | |
|     tdesi1.f90 | |
|     tridim.f90 | Resolution of incompressible Navier Stokes and scalar transport equations for a time step | 
|     tspdcv.f90 | |
|     tstvec.f90 | |
|     turbomachinery.f90 | |
|     typecl.f90 | Handle boundary condition type code (itypfb) | 
|     undscr.f90 | |
|     varpos.f90 | Variables location initialization, according to calculation type selected by the user | 
|     vericl.f90 | Check boundary condition code | 
|     verini.f90 | |
|     verlon.f90 | |
|     vert1d.f90 | |
|     visecv.f90 | Computes the secondary viscosity contribution  in order to compute: 
 with: | 
|     zufall.f90 | |
|    bft | |
|     bft_backtrace.c | |
|     bft_backtrace.h | |
|     bft_error.c | |
|     bft_error.h | |
|     bft_mem.c | |
|     bft_mem.h | |
|     bft_mem_usage.c | |
|     bft_mem_usage.h | |
|     bft_printf.c | |
|     bft_printf.h | |
|    cfbl | |
|     cfdivs.f90 | |
|     cfdttv.f90 | |
|     cfener.f90 | |
|     cffana.f90 | Computes the analytical flux at the boundary for Euler and Energy | 
|     cfini1.f90 | |
|     cfiniv.f90 | |
|     cfmsfp.f90 | |
|     cfmspr.f90 | |
|     cfphyv.f90 | |
|     cfpoin.f90 | Module for fuel combustion | 
|     cfprop.f90 | |
|     cfrusb.f90 | |
|     cfther.f90 | |
|     cfvarp.f90 | |
|     cfxtcl.f90 | |
|    cogz | |
|     coincl.f90 | Module for gas combustion | 
|     coini1.f90 | |
|     colecd.f90 | |
|     coprop.f90 | |
|     cothht.f90 | |
|     covarp.f90 | |
|     d3phst.f90 | Specific physic subroutine: diffusion flame | 
|     d3pini.f90 | |
|     d3pint.f90 | Specific physic subroutine: diffusion flame | 
|     d3pphy.f90 | Specific physic subroutine: diffusion flame | 
|     d3ptcl.f90 | |
|     d3pver.f90 | |
|     ebuini.f90 | |
|     ebuphy.f90 | |
|     ebutcl.f90 | |
|     ebutss.f90 | |
|     ebuver.f90 | |
|     lwcgfu.f90 | |
|     lwcini.f90 | |
|     lwcphy.f90 | |
|     lwctcl.f90 | |
|     lwctss.f90 | |
|     lwcurl.f90 | |
|     lwcver.f90 | |
|     pdflwc.f90 | |
|     pdfpp3.f90 | |
|     pdfpp4.f90 | |
|     sootsc.f90 | Specific physic subroutine: two equations soot model | 
|    comb | |
|     cpincl.f90 | Module for pulverized coal combustion | 
|     cplin1.f90 | |
|     cplini.f90 | |
|     cplph1.f90 | |
|     cplphy.f90 | |
|     cplpro.f90 | |
|     cpltcl.f90 | |
|     cpltss.f90 | |
|     cpltsv.f90 | |
|     cplvar.f90 | |
|     cplver.f90 | |
|     cplym1.f90 | |
|     cppdf4.f90 | |
|     cppdfr.f90 | |
|     cpteh1.f90 | |
|     cpthp1.f90 | |
|     cs_coal_bcond.f90 | |
|     cs_coal_fp2st.f90 | |
|     cs_coal_htconvers1.f90 | |
|     cs_coal_htconvers2.f90 | |
|     cs_coal_incl.f90 | Module for coal combustion | 
|     cs_coal_masstransfer.f90 | |
|     cs_coal_noxst.f90 | |
|     cs_coal_param.f90 | |
|     cs_coal_physprop.f90 | |
|     cs_coal_physprop1.f90 | |
|     cs_coal_physprop2.f90 | |
|     cs_coal_prop.f90 | |
|     cs_coal_radst.f90 | |
|     cs_coal_readata.f90 | |
|     cs_coal_scast.f90 | |
|     cs_coal_thfieldconv1.f90 | |
|     cs_coal_thfieldconv2.f90 | |
|     cs_coal_varini.f90 | |
|     cs_coal_varpos.f90 | |
|     cs_coal_verify.f90 | |
|     cs_fuel_bcond.f90 | |
|     cs_fuel_fp2st.f90 | |
|     cs_fuel_htconvers1.f90 | |
|     cs_fuel_htconvers2.f90 | |
|     cs_fuel_incl.f90 | Module for heavy fuel oil combustion | 
|     cs_fuel_masstransfer.f90 | |
|     cs_fuel_noxst.f90 | |
|     cs_fuel_param.f90 | |
|     cs_fuel_physprop.f90 | |
|     cs_fuel_physprop1.f90 | |
|     cs_fuel_physprop2.f90 | |
|     cs_fuel_prop.f90 | |
|     cs_fuel_radst.f90 | |
|     cs_fuel_readata.f90 | |
|     cs_fuel_scast.f90 | |
|     cs_fuel_thfieldconv1.f90 | |
|     cs_fuel_thfieldconv2.f90 | |
|     cs_fuel_varini.f90 | |
|     cs_fuel_varpos.f90 | |
|     cs_fuel_verify.f90 | |
|     cs_gascomb.f90 | |
|    ctwr | |
|     cs_ctwr.c | |
|     cs_ctwr.h | |
|     cs_ctwr_air_props.c | |
|     cs_ctwr_air_props.h | |
|     cs_ctwr_f2c.f90 | |
|     cs_ctwr_halo.c | |
|     cs_ctwr_halo.h | |
|     cs_ctwr_mesh.c | |
|     cs_ctwr_mesh.h | |
|     ctincl.f90 | |
|     ctini1.f90 | |
|     ctiniv.f90 | |
|     ctphyv.f90 | |
|     cttssc.f90 | |
|     ctvarp.f90 | |
|    elec | |
|     cs_elec_bcond.f90 | |
|     elflux.f90 | |
|     elincl.f90 | Module for electric arcs | 
|     elini1.f90 | |
|     eliniv.f90 | |
|     ellecd.f90 | |
|     elphyv.f90 | |
|     elprop.f90 | |
|     elreca.f90 | |
|     elthht.f90 | |
|     eltssc.f90 | |
|     elvarp.f90 | |
|     elveri.f90 | |
|    fvm | |
|     fvm_box.c | |
|     fvm_box.h | |
|     fvm_box_priv.h | |
|     fvm_box_tree.c | |
|     fvm_box_tree.h | |
|     fvm_convert_array.c | |
|     fvm_convert_array.h | |
|     fvm_defs.c | |
|     fvm_defs.h | |
|     fvm_gather.c | |
|     fvm_gather.h | |
|     fvm_group.c | |
|     fvm_group.h | |
|     fvm_hilbert.c | |
|     fvm_hilbert.h | |
|     fvm_io_num.c | |
|     fvm_io_num.h | |
|     fvm_morton.c | |
|     fvm_morton.h | |
|     fvm_neighborhood.c | |
|     fvm_neighborhood.h | |
|     fvm_nodal.c | |
|     fvm_nodal.h | |
|     fvm_nodal_append.c | |
|     fvm_nodal_append.h | |
|     fvm_nodal_extract.c | |
|     fvm_nodal_extract.h | |
|     fvm_nodal_extrude.c | |
|     fvm_nodal_extrude.h | |
|     fvm_nodal_from_desc.c | |
|     fvm_nodal_from_desc.h | |
|     fvm_nodal_order.c | |
|     fvm_nodal_order.h | |
|     fvm_nodal_priv.h | |
|     fvm_nodal_project.c | |
|     fvm_nodal_project.h | |
|     fvm_nodal_triangulate.c | |
|     fvm_nodal_triangulate.h | |
|     fvm_periodicity.c | |
|     fvm_periodicity.h | |
|     fvm_point_location.c | |
|     fvm_point_location.h | |
|     fvm_selector.c | |
|     fvm_selector.h | |
|     fvm_selector_postfix.c | |
|     fvm_selector_postfix.h | |
|     fvm_tesselation.c | |
|     fvm_tesselation.h | |
|     fvm_to_catalyst.cxx | |
|     fvm_to_catalyst.h | |
|     fvm_to_ccm.c | |
|     fvm_to_ccm.h | |
|     fvm_to_cgns.c | |
|     fvm_to_cgns.h | |
|     fvm_to_ensight.c | |
|     fvm_to_ensight.h | |
|     fvm_to_ensight_case.c | |
|     fvm_to_ensight_case.h | |
|     fvm_to_med.c | |
|     fvm_to_med.h | |
|     fvm_to_medcoupling.cxx | |
|     fvm_to_medcoupling.h | |
|     fvm_trace.c | |
|     fvm_trace.h | |
|     fvm_triangulate.c | |
|     fvm_triangulate.h | |
|     fvm_writer.c | |
|     fvm_writer.h | |
|     fvm_writer_helper.c | |
|     fvm_writer_helper.h | |
|     fvm_writer_priv.h | |
|    gui | |
|     cs_gui.c | |
|     cs_gui.h | |
|     cs_gui_boundary_conditions.c | |
|     cs_gui_boundary_conditions.h | |
|     cs_gui_conjugate_heat_transfer.c | |
|     cs_gui_conjugate_heat_transfer.h | |
|     cs_gui_mesh.c | |
|     cs_gui_mesh.h | |
|     cs_gui_mobile_mesh.c | |
|     cs_gui_mobile_mesh.h | |
|     cs_gui_output.c | |
|     cs_gui_output.h | |
|     cs_gui_particles.c | |
|     cs_gui_particles.h | |
|     cs_gui_radiative_transfer.c | |
|     cs_gui_radiative_transfer.h | |
|     cs_gui_specific_physics.c | |
|     cs_gui_specific_physics.h | |
|     cs_gui_util.c | |
|     cs_gui_util.h | |
|     cs_gui_variables.h | |
|    lagr | |
|     cs_lagr_clogging.c | |
|     cs_lagr_clogging.h | |
|     cs_lagr_extract.c | Extract information from lagrangian particles | 
|     cs_lagr_extract.h | |
|     cs_lagr_perio.c | |
|     cs_lagr_perio.h | |
|     cs_lagr_tracking.c | |
|     cs_lagr_tracking.h | |
|     cs_lagr_utils.c | |
|     cs_lagr_utils.h | |
|     diverv.f90 | |
|     lagadh.f90 | |
|     lagaff.f90 | |
|     lagbar.f90 | |
|     lagcar.f90 | |
|     lagcli.f90 | |
|     lagcou.f90 | |
|     lagdcl.f90 | |
|     lagdep.f90 | |
|     lagdif.f90 | |
|     lagdim.f90 | Module for Lagrangian dimensions | 
|     lageje.f90 | |
|     lagent.f90 | |
|     lageqp.f90 | |
|     lages1.f90 | |
|     lages2.f90 | |
|     lagesd.f90 | |
|     lagesp.f90 | |
|     laggeo.f90 | |
|     laggra.f90 | |
|     laghis.f90 | |
|     lagich.f90 | |
|     lagidp.f90 | |
|     lagimp.f90 | |
|     lagini.f90 | |
|     lagipn.f90 | |
|     lagitf.f90 | |
|     lagitg.f90 | |
|     lagitp.f90 | |
|     laglec.f90 | |
|     laglis.f90 | |
|     lagnew.f90 | |
|     lagnpr.f90 | |
|     lagnwc.f90 | |
|     lagopt.f90 | |
|     lagout.f90 | |
|     lagpar.f90 | Module for Lagrangian model (parameters) | 
|     lagphy.f90 | |
|     lagpoi.f90 | |
|     lagprj.f90 | |
|     lagran.f90 | Module for Lagrangian model | 
|     lagres.f90 | |
|     lagrus.f90 | |
|     lagsec.f90 | |
|     lagsta.f90 | |
|     lagstf.f90 | |
|     lagswe.f90 | |
|     lagtmp.f90 | |
|     lagune.f90 | |
|    mei | |
|     mei_evaluate.c | Build an interpreter for a mathematical expression | 
|     mei_evaluate.h | Build an interpreter for a mathematical expression | 
|     mei_hash_table.c | Hash table, intended to provide a symbol table | 
|     mei_hash_table.h | Hash table, intended to provide a symbol table | 
|     mei_math_util.c | Provides mathemathical functions facilities | 
|     mei_math_util.h | Provides mathemathical functions facilities | 
|     mei_node.c | Nodal structure of the interpreter | 
|     mei_node.h | Nodal structure of the interpreter | 
|     mei_parser_glob.c | Define global variables usefull for the mathematical expression parsing | 
|     mei_parser_glob.h | Define global variables usefull for the mathematical expression parsing | 
|    mesh | |
|     cs_join.c | |
|     cs_join.h | |
|     cs_join_intersect.c | |
|     cs_join_intersect.h | |
|     cs_join_merge.c | |
|     cs_join_merge.h | |
|     cs_join_mesh.c | |
|     cs_join_mesh.h | |
|     cs_join_perio.c | |
|     cs_join_perio.h | |
|     cs_join_post.c | |
|     cs_join_post.h | |
|     cs_join_set.c | |
|     cs_join_set.h | |
|     cs_join_split.c | |
|     cs_join_split.h | |
|     cs_join_update.c | |
|     cs_join_update.h | |
|     cs_join_util.c | |
|     cs_join_util.h | |
|     cs_mesh.c | |
|     cs_mesh.h | |
|     cs_mesh_bad_cells.c | |
|     cs_mesh_bad_cells.h | |
|     cs_mesh_builder.c | |
|     cs_mesh_builder.h | |
|     cs_mesh_coherency.c | |
|     cs_mesh_coherency.h | |
|     cs_mesh_connect.c | |
|     cs_mesh_connect.h | |
|     cs_mesh_from_builder.c | |
|     cs_mesh_from_builder.h | |
|     cs_mesh_halo.c | |
|     cs_mesh_halo.h | |
|     cs_mesh_location.c | |
|     cs_mesh_location.h | |
|     cs_mesh_quality.c | |
|     cs_mesh_quality.h | |
|     cs_mesh_quantities.c | |
|     cs_mesh_quantities.h | |
|     cs_mesh_save.c | |
|     cs_mesh_save.h | |
|     cs_mesh_smoother.c | |
|     cs_mesh_smoother.h | |
|     cs_mesh_thinwall.c | |
|     cs_mesh_thinwall.h | |
|     cs_mesh_to_builder.c | |
|     cs_mesh_to_builder.h | |
|     cs_mesh_warping.c | |
|     cs_mesh_warping.h | |
|     cs_partition.c | |
|     cs_partition.h | |
|    pprt | |
|     ppcabs.f90 | |
|     ppcpfu.f90 | Module for specific physics common variables between combustion of pulverized coal and heavy fuel | 
|     ppcsca.f90 | |
|     ppincl.f90 | General module for specific physics | 
|     ppini1.f90 | |
|     ppinii.f90 | |
|     ppiniv.f90 | |
|     ppinv2.f90 | |
|     pplecd.f90 | |
|     pppdfr.f90 | Specific physic subroutine: Calculation of rectangle-Dirac pdf parameters | 
|     ppphyv.f90 | |
|     ppppar.f90 | General module for specific physics containing common parameters | 
|     ppprcl.f90 | |
|     ppprop.f90 | |
|     ppray4.f90 | |
|     pptbht.f90 | |
|     ppthch.f90 | Module for specific physics thermophysical data | 
|     pptssc.f90 | |
|     pptycl.f90 | |
|     ppvarp.f90 | |
|    rayt | |
|     radiat.f90 | Module for Radiation | 
|     raycli.f90 | |
|     raycll.f90 | |
|     raydak.f90 | |
|     raydir.f90 | |
|     raydom.f90 | |
|     raylec.f90 | |
|     rayopt.f90 | |
|     rayout.f90 | |
|     raypar.f90 | |
|     raypun.f90 | |
|     raysca.f90 | |
|     raysol.f90 | |
|     rmodak.f90 | |
|    turb | |
|     clipke.f90 | |
|     clipsa.f90 | |
|     clpalp.f90 | |
|     clprij.f90 | |
|     clpv2f.f90 | |
|     cs_les_filter.c | |
|     cs_les_filter.h | |
|     cs_les_inflow.c | |
|     cs_les_inflow.h | |
|     divrit.f90 | This subroutine perform add the divergence of turbulent flux to the transport equation of a scalar | 
|     resalp.f90 | |
|     reseps.f90 | This subroutine performs the solving of epsilon in  RANS turbulence model | 
|     resrij.f90 | This subroutine performs the solving of the Reynolds stress components in  RANS (LRR) turbulence model | 
|     resrit.f90 | This subroutine perform the solving of the transport equation of the turbulent heat fluxes | 
|     resssg.f90 | This subroutine performs the solving of the Reynolds stress components in  RANS (SSG) turbulence model | 
|     resv2f.f90 | |
|     rijech.f90 | |
|     rijthe.f90 | |
|     rotcor.f90 | Computing rotation/curvature correction for eddy-viscosity models. The subroutine is called for the linear eddy viscosity RANS models, when the option irccor = 1 is verify | 
|     tsepls.f90 | |
|     turbke.f90 | Solving the  for incompressible flows or slightly compressible flows for one time step | 
|     turbkw.f90 | Solving the  SST for incompressible flows or slightly compressible flows for one time step | 
|     turbsa.f90 | |
|     turent.f90 | |
|     turrij.f90 | Solving the  for incompressible flows or slightly compressible flows for one time step | 
|     vandri.f90 | |
|     visdyn.f90 | |
|     vislmg.f90 | |
|     vissma.f90 | |
|     vissst.f90 | |
|     visv2f.f90 | |
|     viswal.f90 | |
|     vor2cl.f90 | |
|     vordep.f90 | |
|     vorimp.f90 | |
|     vorin0.f90 | |
|     vorinc.f90 | Module for vortex method for LES boundary conditions | 
|     vorini.f90 | |
|     vorlgv.f90 | |
|     vorpre.f90 | |
|     vortex.f90 | |
|     vorver.f90 | |
|     vorvit.f90 | |
|    user | |
|     cs_user_atmospheric_model.f90 | |
|     cs_user_boundary_conditions.f90 | User subroutine which fills boundary conditions arrays ( icodcl,rcodcl) for unknown variables | 
|     cs_user_coupling.c | |
|     cs_user_extra_operations.f90 | This function is called at the end of each time step, and has a very general purpose (i.e. anything that does not have another dedicated user subroutine) | 
|     cs_user_fluid_structure_interaction.f90 | |
|     cs_user_initialization.f90 | Initialize variables | 
|     cs_user_les_inflow.f90 | Generation of synthetic turbulence at LES inlets | 
|     cs_user_mesh.c | |
|     cs_user_modules.f90 | User-defined module: it allows to create any user array | 
|     cs_user_parameters.f90 | |
|     cs_user_particle_tracking.f90 | |
|     cs_user_performance_tuning.c | |
|     cs_user_physical_properties.f90 | Definition of physical variable laws | 
|     cs_user_postprocess.c | |
|     cs_user_postprocess_var.f90 | Output additional variables on a postprocessing mesh | 
|     cs_user_radiative_transfer.f90 | |
|     cs_user_solver.c | |
|     cs_user_source_terms.f90 | Additional right-hand side source terms | 
|     cs_user_turbomachinery.c | |
|     usalcl.f90 | User subroutine dedicated the use of ALE (Arbitrary Lagrangian Eulerian) Method: | 
|     usatch.f90 | Routines for user defined atmospheric chemical scheme | 
|     usctdz.f90 | |
|     uselrc.f90 | |
|     ushist.f90 | |
|     uskpdc.f90 | |
|     uslaen.f90 | |
|     uslag1.f90 | |
|     uslag2.f90 | |
|     usporo.f90 | This function computes the porosity (volume factor  when porosity module is activated (iporos = 1 in cs_user_parameters.f90) | 
|     uspt1d.f90 | |
|     usray1.f90 | |
|     usray2.f90 | |
|     usthht.f90 | |
|     ustsma.f90 | |
|     usvort.f90 | |
|     usvosy.f90 | 
 1.8.3.1
 1.8.3.1
