MultiMatProblemUnderwaterEx class
Contents
- Reference
MultiMat system of PDEs problem: Underwater explosion problem
Public static functions
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static auto initialize(ncomp_
t system, ncomp_ t ncomp, tk:: real x, tk:: real y, tk:: real z, tk:: real) -> tk::InitializeFn::result_type - Initialize numerical solution.
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static auto analyticSolution(ncomp_
t system, ncomp_ t ncomp, tk:: real x, tk:: real y, tk:: real z, tk:: real t) -> std::vector<tk:: real> - Evaluate analytical solution at (x,y,z,t) for all components.
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static auto src(ncomp_
t, tk:: real, tk:: real, tk:: real, tk:: real, tk:: real& r, tk:: real& ru, tk:: real& rv, tk:: real& rw, tk:: real& re) -> tk::MultiMatSrcFn::result_type - Compute and return source term for this problem.
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static auto names(ncomp_
t) -> std::vector<std::string> - Return names of integral variables to be output to diagnostics file.
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static auto type() -> ctr::
ProblemType noexcept - Return problem type.
Function documentation
static tk::InitializeFn::result_type inciter::
Initialize numerical solution.
| Parameters | |
|---|---|
| system in | Equation system index, i.e., which multi-material flow equation system we operate on among the systems of PDEs |
| ncomp in | Number of scalar components in this PDE system |
| x in | X coordinate where to evaluate the solution |
| y in | Y coordinate where to evaluate the solution |
| z 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
This function only initializes the underwater explosion problem, but does not actually give the analytical solution at time greater than 0.