an efficient C++ finite element environment
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29 void reset(
const geo& omega,
string approx);
31 idiststream&
get (idiststream& is,
field& uh);
32 odiststream&
put (odiststream& os,
const field& uh)
const;
36 bool stop (
const field& xh)
const {
return xh.max_abs() > 10; }
form derivative(const field &uh) const
field derivative_versus_parameter(const field &uh) const
see the field page for the full documentation
void set_parameter(float_type lambda1)
field derivative_solve(const field &mrh) const
see the space page for the full documentation
bool stop(const field &xh) const
string parameter_name() const
field unmassify(const field &uh) const
void reset(const geo &omega, string approx)
see the problem page for the full documentation
The combustion problem: class body for the Newton method.
idiststream & get(idiststream &is, field &uh)
see the Float page for the full documentation
field residue(const field &uh) const
float_type parameter() const
see the branch page for the full documentation
float_type space_dot(const field &xh, const field &yh) const
float_type dual_space_dot(const field &mrh, const field &msh) const
combustion(const geo &omega=geo(), string approx="")
problem::determinant_type update_derivative(const field &uh) const
field derivative_trans_mult(const field &mrh) const
field massify(const field &uh) const
odiststream & put(odiststream &os, const field &uh) const
see the geo page for the full documentation
field initial(std::string restart="")
The combustion problem: class body for the Newton method.