| Program | Source File | Description |
|---|---|---|
| approximate_1D_jump | approximate_1D_jump.f90 | This is a small utility to approximate a discontinuity at a given location in the interval [-1,1]. |
| ateles | ateles.f90 | ATELES |
| atl_harvesting | atl_harvesting.f90 | ATELES Postprocessing |
| fxtp_test | fxtp_test.f90 | |
| integrateLeg_test | integrateLeg_test.f90 | Testing the integration of Legendre Polynomials. |
| ply_fpt_header_test | ply_fpt_header_test.f90 | |
| ply_fpt_ifpt_2D_multiVar_lobattoNodes_test | ply_fpt_ifpt_2D_multiVar_lobattoNodes_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_2D_multiVar_test | ply_fpt_ifpt_2D_multiVar_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_2D_singVar_lobattoNodes_test | ply_fpt_ifpt_2D_singVar_lobattoNodes_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_2D_singVar_test | ply_fpt_ifpt_2D_singVar_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_3D_multiVar_lobattoNodes_test | ply_fpt_ifpt_3D_multiVar_lobattoNodes_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_3D_multiVar_test | ply_fpt_ifpt_3D_multiVar_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_3D_singVar_lobattoNodes_test | ply_fpt_ifpt_3D_singVar_lobattoNodes_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_3D_singVar_test | ply_fpt_ifpt_3D_singVar_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_ifpt_test | ply_fpt_ifpt_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_fpt_lobattoNodes_test | ply_fpt_lobattoNodes_test.f90 | Unit test to check functionallity of fast polynomial transformations to Lobatto-Chebyshev-Nodes. \author{Jens Zudrop} |
| ply_fpt_test | ply_fpt_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_ifpt_lobattoNodes_test | ply_ifpt_lobattoNodes_test.f90 | Unit test to check functionallity of fast polynomial transformations to nodal values at Lobatto-Chebyshev-Nodes. \author{Jens Zudrop} |
| ply_ifpt_test | ply_ifpt_test.f90 | Unit test to check functionallity of fast polynomial transformations. \author{Jens Zudrop} |
| ply_l2p_test | ply_l2p_test.f90 | Unit test to check the L2P implementation. |
| ply_lagrange_test | ply_lagrange_test.f90 | |
| ply_legser_test | ply_legser_test.f90 | Testing Piessens algorithm implemented in ply_legser_module with the data provided in his description in [1] Communications of the ACM, January 1974, Volume 17, Number 1, page 25. Used is the expansion of the function f(x) = 1 / (2-x). |
| ply_polyBaseExc_test | ply_polyBaseExc_test.f90 | Testing functions from the polynomial base exchange module. |
| ply_project_2d_fpt_lobattoPoints_test | ply_project_2d_fpt_lobattoNodes_test.f90 | \todo Check reading of the projection configuration. The input has to be configured on the fly! \todo Put various projections into a projection descriptor. \todo Check those projections by doing m2n and n2m, where input and output should be the same within certain bounds. \todo If everything worked fine, write PASSED on the very last line of output, to indicate a successful run of the unit test: |
| ply_project_2d_fpt_test | ply_project_2d_fpt_test.f90 | \todo Check reading of the projection configuration. The input has to be configured on the fly! \todo Put various projections into a projection descriptor. \todo Check those projections by doing m2n and n2m, where input and output should be the same within certain bounds. \todo If everything worked fine, write PASSED on the very last line of output, to indicate a successful run of the unit test: |
| ply_project_fpt_lobattoPoints_test | ply_project_fpt_lobattoNodes_test.f90 | \todo Check reading of the projection configuration. The input has to be configured on the fly! \todo Put various projections into a projection descriptor. \todo Check those projections by doing m2n and n2m, where input and output should be the same within certain bounds. \todo If everything worked fine, write PASSED on the very last line of output, to indicate a successful run of the unit test: |
| ply_project_fpt_test | ply_project_fpt_test.f90 | \todo Check reading of the projection configuration. The input has to be configured on the fly! \todo Put various projections into a projection descriptor. \todo Check those projections by doing m2n and n2m, where input and output should be the same within certain bounds. \todo If everything worked fine, write PASSED on the very last line of output, to indicate a successful run of the unit test: |
| ply_split_element_test_prog | ply_split_element_test.f90 | |
| ply_split_legendre_test_prog | ply_split_legendre_test.f90 | |
| ply_transfer_test | ply_transfer_test.f90 | |
| test_fxtd_n2m2n | fxtp_n2m2n_test.f90 | If everything worked fine, write PASSED on the very last line of output, to indicate a successful run of the unit test: |