inciter::CompFlowProblemVorticalFlow class

CompFlow system of PDEs problem: vortical flow

Public static functions

static auto solution(ncomp_t system, ncomp_t ncomp, tk::real x, tk::real y, tk::real z, tk::real, int&) -> tk::SolutionFn::result_type
Evaluate analytical solution at (x,y,z) for all components.
static auto src(ncomp_t system, tk::real x, tk::real y, tk::real z, tk::real, tk::real& r, tk::real& ru, tk::real& rv, tk::real& rw, tk::real& re) -> tk::CompFlowSrcFn::result_type
static auto type() -> ctr::ProblemType noexcept
Return problem type.

Public functions

auto fieldNames(ncomp_t) const -> std::vector<std::string>
Return field names to be output to file.
auto fieldOutput(ncomp_t system, ncomp_t, ncomp_t offset, std::size_t nunk, tk::real, tk::real, const std::vector<tk::real>&, const std::array<std::vector<tk::real>, 3>& coord, tk::Fields& U) const -> std::vector<std::vector<tk::real>>
Return field output going to file.
auto names(ncomp_t) const -> std::vector<std::string>
Return names of integral variables to be output to diagnostics file.

Function documentation

static tk::SolutionFn::result_type inciter::CompFlowProblemVorticalFlow::solution(ncomp_t system, ncomp_t ncomp, tk::real x, tk::real y, tk::real z, tk::real, int&)

Evaluate analytical solution at (x,y,z) for all components.

Parameters
system in Equation system index, i.e., which compressible flow equation system we operate on among the systems of PDEs
ncomp in Number of scalar components in this PDE system
in X coordinate where to evaluate the solution
in Y coordinate where to evaluate the solution
in Z coordinate where to evaluate the solution
Returns Values of all components evaluated at (x)

Evaluate analytical solution at (x,y,z,t) for all components

static tk::CompFlowSrcFn::result_type inciter::CompFlowProblemVorticalFlow::src(ncomp_t system, tk::real x, tk::real y, tk::real z, tk::real, tk::real& r, tk::real& ru, tk::real& rv, tk::real& rw, tk::real& re)

Parameters
system in Equation system index, i.e., which compressible flow equation system we operate on among the systems of PDEs
in X coordinate where to evaluate the solution
in Y coordinate where to evaluate the solution
in Z coordinate where to evaluate the solution
in/out Density source
ru in/out X momentum source
rv in/out Y momentum source
rw in/out Z momentum source
re in/out Specific total energy source

Compute and return source term for vortical flow manufactured solution

std::vector<std::string> inciter::CompFlowProblemVorticalFlow::fieldNames(ncomp_t) const

Return field names to be output to file.

Returns Vector of strings labelling fields output in file

std::vector<std::vector<tk::real>> inciter::CompFlowProblemVorticalFlow::fieldOutput(ncomp_t system, ncomp_t, ncomp_t offset, std::size_t nunk, tk::real, tk::real, const std::vector<tk::real>&, const std::array<std::vector<tk::real>, 3>& coord, tk::Fields& U) const

Return field output going to file.

Parameters
system in Equation system index, i.e., which compressible flow equation system we operate on among the systems of PDEs
offset in System offset specifying the position of the system of PDEs among other systems
nunk in Number of unknowns to extract
coord in Mesh node coordinates
in Solution vector at recent time step
Returns Vector of vectors to be output to file

std::vector<std::string> inciter::CompFlowProblemVorticalFlow::names(ncomp_t) const

Return names of integral variables to be output to diagnostics file.

Returns Vector of strings labelling integral variables output