▼ src | |
Convection_1D_ULTIMATE_QUICKEST6.cpp | Calculates the convection in 1D given a 1D matrix of Phase Space Densities, boundary conditions, diffusion, sources and losses |
Convection_1D_ULTIMATE_QUICKEST6.h | Calculates the convection in 1D given a 1D matrix of Phase Space Densities, boundary conditions, diffusion, sources and losses |
Convection_2D.cpp | Calculates the convection in 2D given a 2D matrix of Phase Space Densities, P, R, boundary conditions, diffusion, sources and losses |
Convection_2D.h | Calculates the convection in 2D given a 2D matrix of Phase Space Densities, P, R, boundary conditions, diffusion, sources and losses |
Diffusion_1D.cpp | Getting the diffusion in 1D for the given a 1D matrix of Phase Space Densities, x, boundary conditions, jacobian, sources, losses and change in time |
Diffusion_1D.h | Getting the diffusion in 1D for the given a 1D matrix of Phase Space Densities, x, boundary conditions, jacobian, sources, losses and change in time |
Diffusion_2D.cpp | Getting the diffusion in 2D for the given a 2D matrix of Phase Space Densities, x, y, boundary conditions, jacobian, sources, losses and change in time |
Diffusion_2D.h | Getting the diffusion in 2D for the given a 2D matrix of Phase Space Densities, x, y, boundary conditions, jacobian, sources, losses and change in time |
Diffusion_ADI1.cpp | Calculating the diffusion in 2D using implicit implementation of diagonal terms, explicit implementation of mixed terms |
Diffusion_ADI1.h | Calculating the diffusion in 2D using implicit implementation of diagonal terms, explicit implementation of mixed terms |
Diffusion_ADI2.cpp | Calculating the diffusion in 2D using multidimensional diffusion process - Xiao, F., Z. Su, H. Zheng, and S. Wang (2009) |
Diffusion_ADI2.h | Calculating the diffusion in 2D using multidimensional diffusion process - Xiao, F., Z. Su, H. Zheng, and S. Wang (2009) |
Diffusion_ADI3.cpp | Calculating the diffusion in 2D using method from Jihye Shin and Sungsoo Kim (2008) |
Diffusion_ADI3.h | Calculating the diffusion in 2D using method from Jihye Shin and Sungsoo Kim (2008) |
Interpolation.cpp | Wrapper around interpolation library, interpolates values into new grid using MonotCubicInterpolator.cpp |
Interpolation.h | Wrapper around interpolation library, interpolates values into new grid using MonotCubicInterpolator.cpp |
Logger.cpp | Logs the messages sent, including information, warnings, and errors |
Logger.h | Logs the messages sent, including information, warnings, and errors |
Matrix.cpp | Matrix 1D, 2D, 3D and 4D and operations with them |
Matrix.h | Matrix 1D, 2D, 3D and 4D and operations with them |
MatrixSolver.cpp | Solves model matrices for diffusion calculations and has functionality for derivative approximations of matrices |
MatrixSolver.h | Solves model matrices for diffusion calculations and has functionality for derivative approximations of matrices |
MonotCubicInterpolator.cpp | Represents one dimensional function f with single valued argument x |
MonotCubicInterpolator.hpp | Represents one dimensional function f with single valued argument x that can be interpolated using monotone cubic interpolation |
Parameters.cpp | Holds the Parameters along with their corresponding file and arguments |
Parameters.h | Holds the parameters along with their corresponding file and arguments |
ReadInitialData.cpp | Reads in all the data files created in Matlab in order to initialize the parameters |
ReadInitialData.h | Reads in all the data files created in Matlab in order to initialize the parameters |
UpdatableMatrix.cpp | Same functionality as matrices found in Matrix.h but can also be updated from ini-files |
UpdatableMatrix.h | Same functionality as matrices found in Matrix.h but can also be updated from ini-files |
VERB4D_Solver.cpp | Holds main function that solves all of the matrices using the help of the other classes/functions |